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AddSub10.tst
//Starter Test stimulus file for AddSub10 load AddSub10.hdl, output-file AddSub10.out, compare-to AddSub10.cmp, output-list a%B1.10.1 b%B1.10.1 sub%B1.1.1 out%B1.10.1 carry%B3.1.3; // 2 set a %B0000000000, set b %B0000000000, set sub 0, eval, output; // 3 set a %B0000000001, set b %B0000000000, set sub 1, eval, output; // 4 set a %B0000000000, set b %B0000000001, set sub 1, eval, output; // 7 set a %B0111111111, set b %B0111111111, set sub 0, eval, output; // 8 set a %B0111111111, set b %B0000000001, set sub 0, eval, output; // 9 set a %B0111111111, set b %B0000000001, set sub 1, eval, output; // 10 set a %B1111011000, set b %B1111011000, set sub 0, eval, output; // 11 set a %B1011111100, set b %B1100000011, set sub 0, eval, output; // 12 set a %B1001001110, set b %B1010101101, set sub 1, eval, output; // 13 set a %B0100010010, set b %B0110101110, set sub 1, eval, output; // 14 set a %B0111111111, set b %B0100000000, set sub 0, eval, output; // 5 set a %B1000000000, set b %B1000000000, set sub 0, eval, output;
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//Variable Declaration LST=167.475 //LST(degrees) LE=48.42 //Latitude at thunder bay(degrees) H=200 //Height above sea level(metres) aE=6378.1414 //Semimajor axis(km) eE=0.08182 //Eccentricity //Calculation l=(aE/sqrt(1-eE**2*sin(LE*3.142/180)**2)+H/1000)*cos(LE*3.142/180) z=((aE*(1-eE**2))/sqrt(1-eE**2*sin(LE*3.142/180)**2)+H/1000)*sin(LE*3.142/180) RI=l*cos(LST*3.142/180) //I component of radius vector at thunder bay(km) RJ=l*sin(LST*3.142/180) //J component of radius vector at thunder bay(km) RK= z //Z component of radius vector at thunder bay(km) R=sqrt(RI**2+RJ**2+RK**2) //Results printf("The Radius vector components are %.2f ikm+ %.2f jkm+ %.2f kkm",RI,RJ,RK) printf("\nThe Magnitude of radius component is %.2f km",R)
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//[stk,nwrk,txt,top]=f_abs(nwrk) //! nam='abs' txt=[] s2=stk(top) v=s2(1) it2=prod(size(v))-1 if it2==0 then [stk,nwrk,txt,top]=f_gener(nam,nwrk,[s2(3),s2(3)]) else error(nam+' d''un argument complexe non traduit') end //end
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//Example number 5.2, Page number 85 clc;clear; close; //Variable declaration V=1600; //potential energy of electron(V) //Calculation lamda=12.27/sqrt(V); //wavelength(m) //Result printf("wavelength is %f Angstrom",lamda) //answer given in the book is wrong
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n := 4; on rational, rat; off allfac; array p(n/2+2); harmonic u,v,w,x,y,z; weight e=1, b=1, d=1, a=1; %% Step1: Solve Kepler equation bige := fourier 0; for k:=1:n do << wtlevel k; bige:=fourier e * hsub(fourier(sin u), u, u, bige, k); >>; write "Kepler Eqn solution:", bige$ %% Ensure we do not calculate things of too high an order wtlevel n; %% Step 2: Calculate r/a in terms of e and l dd:=-e*e; hh:=3/2; j:=1; cc := 1; for i:=1:n/2 do << j:=i*j; hh:=hh-1; cc:=cc+hh*(dd^i)/j >>; bb:=hsub(fourier(1-e*cos u), u, u, bige, n); aa:=fourier 1+hdiff(bige,u); ff:=hint(aa*aa*fourier cc,u); %% Step 3: a/r and f uu := hsub(bb,u,v); uu:=hsub(uu,e,b); vv := hsub(aa,u,v); vv:=hsub(vv,e,b); ww := hsub(ff,u,v); ww:=hsub(ww,e,b); %% Step 4: Substitute f and f' into S yy:=ff-ww; zz:=ff+ww; xx:=hsub(fourier((1-d*d)*cos(u)),u,u-v+w-x-y+z,yy,n)+ hsub(fourier(d*d*cos(v)),v,u+v+w+x+y-z,zz,n); %% Step 5: Calculate R zz:=bb*vv; yy:=zz*zz*vv; on fourier; p(0):= fourier 1; p(1) := xx; for i := 2:n/2+2 do << wtlevel n+4-2i; p(i) := fourier ((2*i-1)/i)*xx*p(i-1) - fourier ((i-1)/i)*p(i-2); >>; wtlevel n; for i:=n/2+2 step -1 until 3 do p(n/2+2):=fourier(a*a)*zz*p(n/2+2)+p(i-1); yy*p(n/2+2); showtime; end;
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//DTFT of x[n]=n*(a)^n*u[n] clear; clc;close; //DTS signal a1=0.5; a2=-0.5; max_limit=10; for n=0:max_limit-1 x1(n+1)=n*(a1^n); x2(n+1)=n*(a2^n); end n=0:max_limit-1; //discrete time fourier transform wmax=2*%pi; K=4; k=0:(K/1000):K; W=k*wmax/K; x1=x1'; x2=x2'; XW1=x1*exp(%i*n'*W); XW2=x2*exp(%i*n'*W); XW1_Mag=abs(XW1); XW2_Mag=abs(XW2); W=[-mtlb_fliplr(W),W(2:1001)];//omega form XW1_Mag=[mtlb_fliplr(XW1_Mag),XW1_Mag(2:1001)]; XW2_Mag=[mtlb_fliplr(XW2_Mag),XW2_Mag(2:1001)]; [XW1_phase,db]=phasemag(XW1); [XW2_phase,db]=phasemag(XW2); XW1_phase=[-mtlb_fliplr(XW1_phase),XW1_phase(2:1001)]; XW2_phase=[-mtlb_fliplr(XW2_phase),XW2_phase(2:1001)]; //plot for a>0 figure subplot(3,1,1); plot2d3('gnn',n,x1) xtitle('Discrete time sequencex[n] a>0') subplot(3,1,2); a=gca(); a.y_location="origin"; a.x_location="origin"; plot2d3(W,XW1_Mag); title('magnitude Response abs(exp(jw))') subplot(3,1,3); a=gca(); a.y_location="origin"; a.x_location="origin"; plot2d(W,XW1_phase); title('magnitude Response abs(exp(jw))') //plot for a<0 figure subplot(3,1,1); plot2d3('gnn',n,x2); xtitle('Discrete Time sequence x[n] for a>0') subplot(3,1,2); a=gca(); a.y_location="origin"; a.x_location="origin"; plot2d(W,XW2_Mag); title('Magnitude Response abs(X(jw))') subplot(3,1,3); a=gca(); a.y_location="origin"; a.x_location="origin"; plot2d(W,XW2_phase); title('phase Response<(X(jw))')
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//Example 7.2, page no-437 clear clc //(a) v=10 F=1/v printf("(a)\nFluidity = %.1f rhe",F) //(b) mu=10 rho=0.8 ve=mu/rho printf("\n(b)\nKinematic viscosity (v)= %.1f cm^2/sec",ve) //(c) ab=1000 abwt=1.002 rv=ab/abwt printf("\n(c)\nRelative viscosity = %d centipoises",rv) //(d) PAS=10 printf("\n(c)\nAbsolute viscosity = 1000 centipoises =10 poises = 1PAS")
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//find.. clc //solution //given D=80//mm R=40//mm a=(%pi/180)*15//deg u=0.3 W=200//N N=900//rpm w=94.26//rad/s m=14//kg k=0.16// //T=u*W*R*cosec(a)=9273//N-mm T=9273//N-mm printf("torque acting is,%f N-mm\n",T) I=m*k^2//kg-m^2 alpha=T/(1000*I)//angular acc//rad/s^2 //w=0+alpha*t t=w/alpha///sec q=(w+0)/2*t//rad E=T*q//energy lost in slipping printf("energy lost is,%f N-mm\n",E)
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// Exa 5.1 clc; clear; close; // Given data A= 800;// unit less Af= 50;// unit less // Formula Af= A/(1+Bita*A) Bita= 1/Af-1/A; disp(Bita*100,"Percentage of output which is feedback to the input in % is ")
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Ex5_3_2.sce
//Example 5.3.2 //Claculate the bandwidth and frequency range //Variables clc clear Rs = 16 fc = 14.125 alpha = 0.25 //result Bocc = Rs*(1 + alpha) fl = fc - (Rs/2)*(1+alpha) fh = fc + (Rs/2)*(1+alpha) printf("The bandwidth occupied by RF signal is %f Mhz\n",Bocc) printf("The frequecny range is from %f Ghz to %f Ghz",fl,fh)
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clc //to calculate number of lines in the grating //theta1=theta2=30 degree //sin theta1=sin theta2=1/2 lambda1=6*10^-5 //wavelength in cm lambda2=4.5*10^-5 //let (e+d)=E //formula is (e+d)*sin theta1=n*lambda1----------eq(1) //(e+d)*sin theta2=(n+1)*lambda2----------eq(2) //we get, n=lambda2/(lambda1-lambda2) //order of spectrum E=n*lambda1/sin(%pi/6) number=1/E disp("number of lines is number="+string(number)+"unitless")
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//problem 9 pagenumber 5.101 //given fh=2e6;//hz id=[1e-6,1e-9];format(6); i=1; while i<3 In=sqrt(2*1.62e-19*id(i)*fh); disp('signal to noise id '+string(id(i)*10^6)+' = '+string(20*log10(id(i)/In))+' dB'); i=i+1; end
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//Example 7_2_u2 clc(); clear; //To calculate the diffusion current density Dn=22.5 e=1.6*10^-19 //units in eV dn=(1*10^18)-(7*10^17) dx=0.1 Jndiff=e*Dn*(dn/dx) //units in A/cm^2 printf("The diffusion current density is Jn,diff=%.1f A/cm^2",Jndiff)
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//check output s=[0.00258506418423721 -0.00517012836847441 0.00258506418423721 1 0.659895161153710 0.122680704526008; 1 -2 1 1 0.747789178258503 0.272214937925008; 1 -2 1 1 0.972036705142561 0.653727617954745] flag=isstable(s); disp(flag); //output //1. //
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sce
sc2.sce
# Film clips + music clips + pictures(IAPS): fMRI-HIRF stimuli paradigm # Created October 2015 # Saurabh Sonkusare scenario="HIRF_paradigm_1"; scenario_type=trials; default_trial_start_delay = 0; #default_trial_type=fixed; $V_Height = 1024; $V_Size = 1600; # stimulus font and colour response_matching = simple_matching; default_background_color=0,0,0; default_font="Arial"; default_font_size=30; default_text_align=align_center; active_buttons=1; button_codes=1; write_codes = true; pulse_width = 10; begin; #fixation cross trial { stimulus_event { picture {text {caption = "+"; font_size = 56;}; x = 0; y = 0;}; port_code = 20; time = 0; } main_eventfix; nothing {}; code = ""; time = 10; port_code = 0; } fix_trial; trial { nothing{}; port_code = 0; } empty_trial; trial { trial_duration = forever; trial_type = first_response; picture { text {caption = "Please rate the clip and press space bar to continue"; font_size = 40; } rate_text; x = 0; y = 0; }; } rate_trial; trial { trial_duration = forever; trial_type = first_response; picture { text {caption = "Please press space bar to continue"; font_size = 40; } rate_text1; x = 0; y = 0; }; } rate_trial_pic; trial { trial_duration = forever; trial_type = first_response; } wait_trial; array { video { filename = "Clip_13_GREY_THE_WOLF_CHASE_ED.avi"; description = "41"; width = 1370; height = 900;}V1; video { filename = "Clip_41_SHINING_THE_Here_s_Johnny.avi"; description = "42"; width = 1370; height = 900;}; video { filename = "Clip_25_Love_Actually_-_Dancing_Prime_Minister.avi";description = "43"; width = 1370; height = 900;}; video { filename = "Clip_31_Mr.Bean_s_Holiday_(Dance_Scene_HD.avi";description = "44"; width = 1370; height = 900;}; video { filename = "Clip_40_REQUIEM_FOR_A_DREAM_NEEDLE.avi";description = "45";width = 1370; height = 900;}; } emotional_films; array { sound { wavefile { filename = "009_HV_HA_Happy.wav";}; description = "55"; } M1; sound { wavefile { filename = "123_LV_HA_Anger.wav";}; description = "56"; }; sound { wavefile { filename = "127_LV_HA_Anger.wav";}; description = "57"; }; sound { wavefile { filename = "242_HV_HA_Happy.wav";}; description = "58"; }; sound { wavefile { filename = "103_LV_HA_Fear.wav";}; description = "52"; }; }emotional_music; array { bitmap { filename = "1650.jpg"; description = "101";}P1; bitmap { filename = "5470.jpg"; description = "105";}; bitmap { filename = "5621.jpg"; description = "106";}; bitmap { filename = "5626.jpg"; description = "107";}; bitmap { filename = "5629.jpg"; description = "108";}; bitmap { filename = "7405.jpg"; description = "109";}; bitmap { filename = "7650.jpg"; description = "110";}; bitmap { filename = "8030.jpg"; description = "111";}; bitmap { filename = "8034.jpg"; description = "112";}; bitmap { filename = "8080.jpg"; description = "113";}; bitmap { filename = "8158.jpg"; description = "114";}; bitmap { filename = "8161.jpg"; description = "115";}; bitmap { filename = "8163.jpg"; description = "116";}; bitmap { filename = "8170.jpg"; description = "117";}; bitmap { filename = "8178.jpg"; description = "118";}; bitmap { filename = "8180.jpg"; description = "119";}; bitmap { filename = "8185.jpg"; description = "120";}; bitmap { filename = "8186.jpg"; description = "121";}; bitmap { filename = "8190.jpg"; description = "122";}; bitmap { filename = "8191.jpg"; description = "123";}; bitmap { filename = "8193.jpg"; description = "124";}; bitmap { filename = "8200.jpg"; description = "125";}; bitmap { filename = "8206.jpg"; description = "126";}; bitmap { filename = "8251.jpg"; description = "127";}; bitmap { filename = "8300.jpg"; description = "128";}; bitmap { filename = "8341.jpg"; description = "129";}; bitmap { filename = "8370.jpg"; description = "130";}; bitmap { filename = "8400.jpg"; description = "131";}; bitmap { filename = "8470.jpg"; description = "132";}; bitmap { filename = "8490.jpg"; description = "133";}; bitmap { filename = "8492.jpg"; description = "134";}; bitmap { filename = "8499.jpg"; description = "135";}; bitmap { filename = "8501.jpg"; description = "136";}; } emotional_pics_HV; array { bitmap { filename = "1022.jpg"; description = "151";}P2; bitmap { filename = "1033.jpg"; description = "152";}; bitmap { filename = "1040.jpg"; description = "153";}; bitmap { filename = "1050.jpg"; description = "154";}; bitmap { filename = "1052.jpg"; description = "155";}; bitmap { filename = "1070.jpg"; description = "156";}; bitmap { filename = "1113.jpg"; description = "157";}; bitmap { filename = "1114.jpg"; description = "158";}; bitmap { filename = "1120.jpg"; description = "159";}; bitmap { filename = "1200.jpg"; description = "160";}; bitmap { filename = "1201.jpg"; description = "161";}; bitmap { filename = "1300.jpg"; description = "162";}; bitmap { filename = "1302.jpg"; description = "163";}; bitmap { filename = "1304.jpg"; description = "164";}; bitmap { filename = "1310.jpg"; description = "165";}; bitmap { filename = "1321.jpg"; description = "166";}; bitmap { filename = "1525.jpg"; description = "167";}; bitmap { filename = "1726.jpg"; description = "168";}; bitmap { filename = "1930.jpg"; description = "169";}; bitmap { filename = "1931.jpg"; description = "170";}; bitmap { filename = "1932.jpg"; description = "171";}; bitmap { filename = "3350.jpg"; description = "172";}; bitmap { filename = "5920.jpg"; description = "173";}; bitmap { filename = "5940.jpg"; description = "174";}; bitmap { filename = "5950.jpg"; description = "175";}; bitmap { filename = "5971.jpg"; description = "176";}; bitmap { filename = "5972.jpg"; description = "177";}; bitmap { filename = "7640.jpg"; description = "178";}; bitmap { filename = "8160.jpg"; description = "179";}; bitmap { filename = "8192.jpg"; description = "180";}; bitmap { filename = "8475.jpg"; description = "181";}; bitmap { filename = "8480.jpg"; description = "182";}; bitmap { filename = "9622.jpg"; description = "183";}; bitmap { filename = "9623.jpg"; description = "184";}; }emotional_pics_NV; array { bitmap { filename = "3000.jpg"; description = "201";}P3; bitmap { filename = "3001.jpg"; description = "202";}; bitmap { filename = "3005.1.jpg"; description = "203";}; bitmap { filename = "3010.jpg"; description = "204";}; bitmap { filename = "3030.jpg"; description = "205";}; bitmap { filename = "3053.jpg"; description = "206";}; bitmap { filename = "3059.jpg"; description = "207";}; bitmap { filename = "3060.jpg"; description = "208";}; bitmap { filename = "3063.jpg"; description = "209";}; bitmap { filename = "3064.jpg"; description = "210";}; bitmap { filename = "3068.jpg"; description = "211";}; bitmap { filename = "3069.jpg"; description = "212";}; bitmap { filename = "3071.jpg"; description = "213";}; bitmap { filename = "3080.jpg"; description = "214";}; bitmap { filename = "3100.jpg"; description = "215";}; bitmap { filename = "3110.jpg"; description = "217";}; bitmap { filename = "3120.jpg"; description = "218";}; bitmap { filename = "3130.jpg"; description = "219";}; bitmap { filename = "3131.jpg"; description = "220";}; bitmap { filename = "3140.jpg"; description = "221";}; bitmap { filename = "3168.jpg"; description = "222";}; bitmap { filename = "3170.jpg"; description = "223";}; bitmap { filename = "3266.jpg"; description = "224";}; bitmap { filename = "3530.jpg"; description = "225";}; bitmap { filename = "6313.jpg"; description = "226";}; bitmap { filename = "6350.jpg"; description = "227";}; bitmap { filename = "6520.jpg"; description = "228";}; bitmap { filename = "6563.jpg"; description = "229";}; bitmap { filename = "9075.jpg"; description = "230";}; bitmap { filename = "9183.jpg"; description = "231";}; bitmap { filename = "9187.jpg"; description = "232";}; bitmap { filename = "9252.jpg"; description = "233";}; bitmap { filename = "9325.jpg"; description = "234";}; bitmap { filename = "9405.jpg"; description = "235";}; bitmap { filename = "9410.jpg"; description = "236";}; bitmap { filename = "9412.jpg"; description = "237";}; bitmap { filename = "9413.jpg"; description = "238";}; bitmap { filename = "9570.jpg"; description = "239";}; bitmap { filename = "9635.1.jpg"; description = "240";}; bitmap { filename = "9940.jpg"; description = "241";}; }emotional_pics_LV; #trial for films trial{ stimulus_event { video V1; }event1; nothing {}; code = ""; time = 10; port_code = 0; } trial_films; ##trial for music trial { stimulus_event { sound M1; } event2; nothing {}; code = ""; time = 10; port_code = 0; } trial_music; trial { trial_duration = 2000; stimulus_event { picture { bitmap P2; x = 0; y = 0; } main_pic; } main_event; nothing {}; code = ""; time = 10; port_code = 0; } main_trial; begin_pcl; empty_trial.present(); #Shuffle the stimulus array before running the loop emotional_films.shuffle(); emotional_music.shuffle(); int j = 1; int i = 1; int k = 1; loop int z = 1 until z > (5*emotional_films.count()) begin #loop int j = 1 until j > emotional_films.count() begin empty_trial.present(); #wait_trial.present(); fix_trial.set_duration (random(6000,8000)); fix_trial.present (); # FILM trigger here event1.set_stimulus( emotional_films[j] ); #event1.set_event_code( emotional_films[j].description() ); #event1.set_port_code( port_code ); string code = emotional_films[j].description(); int pos = code.find( " " ); int port_code = int( code.substring( pos + 1, code.count() - pos ) ); event1.set_event_code( code ); event1.set_port_code( port_code ); empty_trial.present(); trial_films.present(); empty_trial.present(); rate_trial.present(); # loop int i = 1 until i > emotional_music.count() begin # loop int k = 1 until k > emotional_pics_HV.count() begin # MUSIC empty_trial.present(); fix_trial.set_duration (random(6000,8000)); fix_trial.present (); #emotional_music.shuffle(); event2.set_stimulus( emotional_music[i] ); event2.set_event_code( emotional_music[i].description() ); event2.set_port_code( int( emotional_music[i].description() ) ); empty_trial.present(); trial_music.present(); empty_trial.present(); rate_trial.present(); # PICTURE empty_trial.present(); fix_trial.set_duration (random(6000,8000)); fix_trial.present (); empty_trial.present(); emotional_pics_NV.shuffle(); loop int x = 1 until x > 8 begin #emotional_pics_NV.shuffle(); main_pic.set_part( 1, emotional_pics_NV[x] ); main_event.set_event_code( emotional_pics_NV[x].description() ); main_event.set_port_code( int( emotional_pics_NV[x].description() ) ); empty_trial.present(); main_trial.present(); empty_trial.present(); fix_trial.set_duration(int (1000)); fix_trial.present (); empty_trial.present(); x = x + 1; end; #empty_trial.present(); rate_trial_pic.present(); j = j + 1; i = i + 1; k = k + 1; z = z + 1; #k = k + 1; #end; #i = i + 1; #end; end;
66016f8e4179297681cce315e1a3fa3a98f991c4
449d555969bfd7befe906877abab098c6e63a0e8
/587/CH2/EX2.18/example2_18.sce
72636f37d803d08f0f82b1ff923679065d7e1e16
[]
no_license
FOSSEE/Scilab-TBC-Uploads
948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1
7bc77cb1ed33745c720952c92b3b2747c5cbf2df
refs/heads/master
2020-04-09T02:43:26.499817
2018-02-03T05:31:52
2018-02-03T05:31:52
37,975,407
3
12
null
null
null
null
UTF-8
Scilab
false
false
416
sce
example2_18.sce
clear; clc; //Example2.18[Variation of Temperature in a Resistance Heater] //Given:- k=13.55;//[W/m.degree Celcius] ro=0.005;//[m] e_gen=4.3*10^7;//rate of resistance heating[W/m^3] Ts=108;//Surface temperature[degree Celcius] //Solution:- //Integrating we get //T(r)=Ts+((e_gen*(ro^2-r^2)/4k)) T_0=Ts+((e_gen*ro^2)/(4*k)); disp("degree Celcius",round(T_0),"The temperature at the centreline,r=0 is")
64ac14c4e5dbb009c0f6c9f6c618c1e2b5723e61
04bf9c17fef56216adb24f0222355e251d14698a
/wangaudiofinal/production1.sce
db1286d3afa1495391174a61a951a9d60eedd847
[]
no_license
xiaoouwang/psycho
0fb275b23b39e1a287cd20366abaef0c9d8ceb71
990949699f0649f1cc937ec44737483ebd8a6824
refs/heads/master
2023-05-05T22:47:59.399140
2021-04-30T15:37:12
2021-04-30T15:37:12
363,183,984
0
0
null
null
null
null
UTF-8
Scilab
false
false
17,002
sce
production1.sce
scenario = "Production_avant-entrainement XP"; default_font = "Arial Unicode MS"; default_font_size = 33; begin; trial { picture { text {caption = "以下练习包含元音 /O/ (如porc)\n\n准备好后请按回车键";font_size = 42;font_color = 255,255,255;}; x = 0; y = 0;}; time=0; }trialO; trial { picture { text {caption = "以下练习包含元音 /a/ (如papa)\n\n准备好后请按回车键";font_size = 42;font_color = 255,255,255;}; x = 0; y = 0;}; time=0; }triala; trial { picture { text {caption = "以下练习包含元音 /é/(如fée)\n\n准备好后请按回车键";font_size = 42;font_color = 255,255,255;}; x = 0; y = 0;}; time=0; }triale; trial { picture { text {caption = "以下练习包含元音 /è/ (如pêche)\n\n准备好后请按回车键";font_size = 42;font_color = 255,255,255;}; x = 0; y = 0;}; time=0; }trialE; trial { picture { text {caption = "以下练习包含元音 /o/ (如peau)\n\n准备好后请按回车键";font_size = 42;font_color = 255,255,255;}; x = 0; y = 0;}; time=0; }trialo; trial { picture { text {caption = "以下练习包含元音 /eu/ (如peu)\n\n准备好后请按回车键";font_size = 42;font_color = 255,255,255;}; x = 0; y = 0;}; time=0; }trialeu; trial { picture { text {caption = "以下练习包含元音 /oe/ (如peur)\n\n准备好后请按回车键";font_size = 42;font_color = 255,255,255;}; x = 0; y = 0;}; time=0; }trialoe; trial { picture { text {caption = "以下练习包含元音 /u/ (如pure)\n\n准备好后请按回车键";font_size = 42;font_color = 255,255,255;}; x = 0; y = 0;}; time=0; }trialy; trial { picture { text {caption = "以下练习包含元音 /i/ (如pipi)\n\n准备好后请按回车键";font_size = 42;font_color = 255,255,255;}; x = 0; y = 0;}; time=0; }triali; trial { picture { text {caption = "以下练习包含元音 /ou/ (如pour)\n\n准备好后请按回车键";font_size = 42;font_color = 255,255,255;}; x = 0; y = 0;}; time=0; }trialu; trial { picture { text {caption = "现在我们记录下你的发音情况\n\n";font_size = 42;font_color = 255,255,255;}; x = 0; y = 0;}; time=0; duration=3000; picture { text { caption = "你将会看到如下告示:";font_size = 50;}; x = 0; y =250; #text { caption = "Prononcez";font_size = 40;}; # x = 0; y = 150; text { caption = "/O/";font_size = 50;font_color=0,255,0;}; x = 0; y = 50; text { caption = "请朗读...\n\n";font_size = 40;font_color=255,0,0;}; x = 0; y = -200; }; delta_time = 3000; duration=5000; picture { text {caption = "告示出现时朗读绿色的符号\n\n此符号可能是单独的元音,比如 /O/\n\n也可能是一段包含此元音的语音,比如 /OpO/\n\n也可能是个单词,比如 porc";font_size = 40;font_color = 255,255,255;}; x = 0; y = 0;}; delta_time=5000; duration=11500; }trial_start; array { text { caption = "/eu/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/eu/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/eumeu/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/euneu/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/eupeu/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/euteu/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/eukeu/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/eufeu/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/euseu/"; font_size = 50; font_color = 0,255,0; }; text { caption = "/euzeu/"; font_size = 50; font_color = 0,255,0; }; text { caption = "/euleu/"; font_size = 50; font_color = 0,255,0;}; text { caption = "peu"; font_size = 50; font_color = 0,255,0;}; text { caption = "fameux"; font_size = 50; font_color = 0,255,0;}; text { caption = "feu"; font_size = 50; font_color = 0,255,0;}; text { caption = "paresseux"; font_size = 50; font_color = 0,255,0;}; text { caption = "deux"; font_size = 50; font_color = 0,255,0;}; } letterseu; array { text { caption = "/a/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/a/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/apa/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/ata/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/aka/"; font_size = 50;font_color = 0,255,0;}; text { caption = "/afa/"; font_size = 50;font_color = 0,255,0;}; text { caption = "/asa/"; font_size = 50;font_color = 0,255,0;}; } lettersa; array { text { caption = "/i/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/i/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/ipi/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/iti/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/iki/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/ifi/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/isi/"; font_size = 50; font_color = 0,255,0;}; } lettersi; array { text { caption = "/O/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/O/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/OmO/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/OnO/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/OpO/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/OtO/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/OkO/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/OfO/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/OsO/"; font_size = 50; font_color = 0,255,0; }; text { caption = "/OzO/"; font_size = 50; font_color = 0,255,0; }; text { caption = "/OlO/"; font_size = 50; font_color = 0,255,0;}; text { caption = "porc"; font_size = 50; font_color = 0,255,0;}; text { caption = "molle"; font_size = 50; font_color = 0,255,0;}; text { caption = "folle"; font_size = 50; font_color = 0,255,0;}; text { caption = "sort"; font_size = 50; font_color = 0,255,0;}; text { caption = "tort"; font_size = 50; font_color = 0,255,0;}; } lettersO; array { text { caption = "/o/"; font_size = 50; font_color = 0,255,0;}o; text { caption = "/o/"; font_size = 50; font_color = 0,255,0;}o2; text { caption = "/omo/"; font_size = 50; font_color = 0,255,0;}omo; text { caption = "/ono/"; font_size = 50; font_color = 0,255,0;}ono; text { caption = "/opo/"; font_size = 50; font_color = 0,255,0;}opo; text { caption = "/oto/"; font_size = 50; font_color = 0,255,0;}oto; text { caption = "/oko/"; font_size = 50; font_color = 0,255,0;}oko; text { caption = "/ofo/"; font_size = 50; font_color = 0,255,0;}ofo; text { caption = "/oso/"; font_size = 50; font_color = 0,255,0; }oso; text { caption = "/ozo/"; font_size = 50; font_color = 0,255,0; }ozo; text { caption = "/olo/"; font_size = 50; font_color = 0,255,0;}olo; text { caption = "peau"; font_size = 50; font_color = 0,255,0;}paul; text { caption = "mot"; font_size = 50; font_color = 0,255,0;}mot; text { caption = "faux"; font_size = 50; font_color = 0,255,0;}faux; text { caption = "morceau"; font_size = 50; font_color = 0,255,0;}seau; text { caption = "tôt"; font_size = 50; font_color = 0,255,0;}bateau; } letterso; array { text { caption = "/ou/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/oupou/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/outou/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/oukou/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/oufou/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/ousou/"; font_size = 50; font_color = 0,255,0;}; } lettersu; array { text { caption = "/oe/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/oe/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/oemoe/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/oenoe/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/oepoe/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/oetoe/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/oekoe/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/oefoe/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/oesoe/"; font_size = 50; font_color = 0,255,0; }; text { caption = "/oezoe/"; font_size = 50; font_color = 0,255,0; }; text { caption = "/oeloe/"; font_size = 50; font_color = 0,255,0;}; text { caption = "peur"; font_size = 50; font_color = 0,255,0;}; text { caption = "fumeur"; font_size = 50; font_color = 0,255,0;}; text { caption = "fleur"; font_size = 50; font_color = 0,255,0;}; text { caption = "seul"; font_size = 50; font_color = 0,255,0;}; text { caption = "auteur"; font_size = 50; font_color = 0,255,0;}; } lettersoe; array { text { caption = "/é/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/é/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/émé/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/éné/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/épé/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/été/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/éké/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/éfé/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/ésé/"; font_size = 50; font_color = 0,255,0; }; text { caption = "/ézé/"; font_size = 50; font_color = 0,255,0; }; text { caption = "/élé/"; font_size = 50; font_color = 0,255,0;}; text { caption = "pépé"; font_size = 50; font_color = 0,255,0;}; text { caption = "mémé"; font_size = 50; font_color = 0,255,0;}; text { caption = "café"; font_size = 50; font_color = 0,255,0;}; text { caption = "casser"; font_size = 50; font_color = 0,255,0;}; text { caption = "télé"; font_size = 50; font_color = 0,255,0;}; } letterse; array { text { caption = "/u/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/u/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/upu/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/utu/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/uku/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/ufu/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/usu/"; font_size = 50; font_color = 0,255,0;}; } lettersy; array { text { caption = "/è/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/è/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/èpè/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/ètè/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/èkè/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/èfè/"; font_size = 50; font_color = 0,255,0;}; text { caption = "/èsè/"; font_size = 50; font_color = 0,255,0; }; } lettersE; trial { sound_recording { duration = 4500; } training_audio_sound_recording; code = "rec_training_audio"; picture { # text { caption = "Prononcez";font_size = 40;}; # x = 0; y = 250; text o; x = 0; y = 50;}pic; delta_time=50; picture { # text { caption = "Prononcez";font_size = 40;}; # x = 0; y = 250; text o; x = 0; y = 50; text { caption = "请朗读\n\n";font_size = 40;font_color=255,0,0;}; x = 0; y = -200; }vraipic; delta_time=250; } main_trial; picture { text { caption = "第二阶段结束\n\n请按回车进入第三阶段"; font_size = 40; }; x = 0; y = 0; } pic_fin; ##pcl part begin_pcl; trial_start.present(); #a triala.present(); system_keyboard.get_input(); loop int i = 1 until i > lettersa.count() begin pic.set_part( 1, lettersa[i] ); vraipic.set_part( 1, lettersa[i] ); training_audio_sound_recording.set_base_filename("\\\\filesrv1\\home\$\\wangxiao\\.windows\\Bureau\\wang\\avantshadowing\\a"); main_trial.present(); system_keyboard.get_input(); recording_manager.stop_all(false); i=i+1 end; #i triali.present(); system_keyboard.get_input(); loop int i = 1 until i > lettersi.count() begin pic.set_part( 1, lettersi[i] ); vraipic.set_part( 1, lettersi[i] ); training_audio_sound_recording.set_base_filename("\\\\filesrv1\\home\$\\wangxiao\\.windows\\Bureau\\wang\\avantshadowing\\i"); main_trial.present(); system_keyboard.get_input(); recording_manager.stop_all(false); i=i+1 end; #uy trialu.present(); system_keyboard.get_input(); loop int i = 1 until i > lettersu.count() begin pic.set_part( 1, lettersu[i] ); vraipic.set_part( 1, lettersu[i] ); training_audio_sound_recording.set_base_filename("\\\\filesrv1\\home\$\\wangxiao\\.windows\\Bureau\\wang\\avantshadowing\\u"); main_trial.present(); system_keyboard.get_input(); recording_manager.stop_all(false); i=i+1 end; trialy.present(); system_keyboard.get_input(); loop int i = 1 until i > lettersy.count() begin pic.set_part( 1, lettersy[i] ); vraipic.set_part( 1, lettersy[i] ); training_audio_sound_recording.set_base_filename("\\\\filesrv1\\home\$\\wangxiao\\.windows\\Bureau\\wang\\avantshadowing\\y"); main_trial.present(); system_keyboard.get_input(); recording_manager.stop_all(false); i=i+1 end; #éE triale.present(); system_keyboard.get_input(); loop int i = 1 until i > letterse.count() begin pic.set_part( 1, letterse[i] ); vraipic.set_part( 1, letterse[i] ); training_audio_sound_recording.set_base_filename("\\\\filesrv1\\home\$\\wangxiao\\.windows\\Bureau\\wang\\avantshadowing\\e"); main_trial.present(); system_keyboard.get_input(); recording_manager.stop_all(false); i=i+1 end; trialE.present(); system_keyboard.get_input(); loop int i = 1 until i > lettersE.count() begin pic.set_part( 1, lettersE[i] ); vraipic.set_part( 1, lettersE[i] ); training_audio_sound_recording.set_base_filename("\\\\filesrv1\\home\$\\wangxiao\\.windows\\Bureau\\wang\\avantshadowing\\E"); main_trial.present(); system_keyboard.get_input(); recording_manager.stop_all(false); i=i+1 end; #oO trialo.present(); system_keyboard.get_input(); loop int i = 1 until i > letterso.count() begin pic.set_part( 1, letterso[i] ); vraipic.set_part( 1, letterso[i] ); training_audio_sound_recording.set_base_filename("\\\\filesrv1\\home\$\\wangxiao\\.windows\\Bureau\\wang\\avantshadowing\\o"); main_trial.present(); system_keyboard.get_input(); recording_manager.stop_all(false); i=i+1 end; trialO.present(); system_keyboard.get_input(); loop int i = 1 until i > lettersO.count() begin pic.set_part( 1, lettersO[i] ); vraipic.set_part( 1, lettersO[i] ); training_audio_sound_recording.set_base_filename("\\\\filesrv1\\home\$\\wangxiao\\.windows\\Bureau\\wang\\avantshadowing\\O"); main_trial.present(); system_keyboard.get_input(); recording_manager.stop_all(false); i=i+1 end; #euoe trialeu.present(); system_keyboard.get_input(); loop int i = 1 until i > letterseu.count() begin pic.set_part( 1, letterseu[i] ); vraipic.set_part( 1, letterseu[i] ); training_audio_sound_recording.set_base_filename("\\\\filesrv1\\home\$\\wangxiao\\.windows\\Bureau\\wang\\avantshadowing\\eu"); main_trial.present(); system_keyboard.get_input(); recording_manager.stop_all(false); i=i+1 end; trialoe.present(); system_keyboard.get_input(); loop int i = 1 until i > lettersoe.count() begin pic.set_part( 1, lettersoe[i] ); vraipic.set_part( 1, lettersoe[i] ); training_audio_sound_recording.set_base_filename("\\\\filesrv1\\home\$\\wangxiao\\.windows\\Bureau\\wang\\avantshadowing\\oe"); main_trial.present(); system_keyboard.get_input(); recording_manager.stop_all(false); i=i+1 end; pic_fin.present(); system_keyboard.get_input();
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//example 5 //acceleration of steam in nozzle clear clc P1=250 //initial pressure of steam in psia T1=700 //initial temperature of steam in °F disp('The specific volume and enthalpy of steam at the nozzle inlet are ') v1=2.6883 //specific volume of steam at the nozzle inlet in ft3/lbm h1=1371.4 // specific enthalpy of steam at the nozzle inletin Btu/lbm A1=0.2 //inlet area in ft^2 M=10 // mass flow rate of steam through nozzle in lbm/s V1=M*v1/A1 // inlet velocity in ft/s qout=1.2 // heat loss in Btu/lbm v2=900 //exit velocity in ft/s h2=h1-qout-(v2^2-v1^2)/(2*25037) // enthalpy after exit disp('from steam table, the temp. corresponding to this pressure and specifi enthalpy is ') T2=662.0 ///in °F printf("\n Hence,the inlet velocity is = %.1f ft/s. \n",V1); printf("\n The exit temp. of the seam is = %.0f F. \n",T2);
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// Display mode mode(0); // Display warning for floating point exception ieee(1); clear; clc; disp("Turbomachinery Design and Theory,Rama S. R. Gorla and Aijaz A. Khan, Chapter 1, Example 1") //Linear ratio L = Lp/Lm = Bp/Bm = Dp/Dm // We know P1/(rho1*(N1)^3*(D1)^5) = P2/(rho2*(N2)^3*(D2)^5) //Pressure equation rho1 = rho2 //Hence, D2/D1 = 0.238(N1/N2)^(3/5) //Also (g*H1)/(N1*D1)^2 = (g*H2)/(N2*D2)^2 //Therefore 0.238 (N1/N2)^(3/5) = (6/16)^(N1/N2) //Hence, (N2/N1)^(2/5) = 2.57 disp ("Therefore Model Speed N2 in rpm, Model Scale Ratio RD and Volume flow rate(Q)in cubic meters per second are:") N2 = 100 * 2.57^(5/2) RD = 0.238 * (100/1059)^(3/5) Q = 42 * 1000 / (0.92*1000*9.81*6)
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//Plots of LeCroy Transfer functions p=poly(0, 's'); s=p/(2*%pi); v=0.01:0.01:100; //Generate frequency matrix frequencies=%i*v*2*%pi; //****************Fibre Channel*************************** H = (1/(1+s)); H_Response = freq(H.num, H.den, frequencies); gainplot(v, [H_Response]); xtitle(" ", "Frequency (Hz)", "Magnitude"); //****************Single Pole- Single Zero*************************** zero=1/10; pole=1/1; H = (1 + s*zero)/(1 + s*pole); H_Response = freq(H.num, H.den, frequencies); gainplot(v, [H_Response]); xtitle(" ", "Frequency (Hz)", "Magnitude"); //******************** PCie 1.1 ****************************** zeta = 0.707; f_3db = 1.5; ohmega_n = f_3db * 2*%pi / (sqrt(1+2*zeta^2 + sqrt((1+2*zeta^2)^2 + 1))); H = (2*p*zeta*ohmega_n + ohmega_n^2) / (p^2 + 2*p*zeta*ohmega_n + ohmega_n^2); H_Response = freq(H.num, H.den, frequencies); gainplot(v, [H_Response]); xtitle(" ", "Frequency (Hz)", "Magnitude");
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function x = sumar_fila_tri(a,i,mult,n) for k=i:i+2 if k==n+1 then break end a(i+1,k)=a(i+1,k)-(mult*a(i,k)) end x=a endfunction function [l,a] = gauss_tridiagonal(a,n) l = eye(n,n) for i=1:n-1 l(i+1,i) = a(i+1,i)/a(i,i) a=sumar_fila_tri(a,i,l(i+1,i),n) end endfunction function S = slove_tridiagonal(A,n,vcons) S = zeros(n,1) if det(A) then [L,A] = gauss_tridiagonal(A,n) vcons = inv(L) * vcons' S(n)=vcons(n)/A(n,n) for i = 1:n-1 s=0 e=n-i for j= e+1:n s=s+A(e,j)*S(j) end S(e)=(vcons(e)-s)/A(e,e) end else printf("Error: --Matriz singular\n") end endfunction
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clear;lines(0); if c_link('foo') then link('foo.o','foo');end // to unlink all the shared libarries which contain foo a=%t; while a ;[a,b]=c_link('foo'); ulink(b);end
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errcatch(-1,"stop");mode(2);//Chapter 2 //page no 43 //given ; ; n=1; Ne=2*n^2; printf("\n Maximum number of electron in 1st shell is %.0f\n ",Ne);//Result n2=2;// shell no Ne2=2*n2^2;// shell no printf("\n Maximum number of electron in 2nd shell is %.0f ",Ne2);//Result exit();
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//Ex 1.12 clc;clear;close; format('v',5); Iout=8;//micro A VBE=0.7;//V VCC=20;//V Beta=80;//unitless IREF=Iout*(1+2/Beta);//micro A disp(IREF,"Reference current is(micro A) : "); R=(VCC-VBE)/(IREF);//Mohm disp(R,"Resistance is(Mohm) : ");
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clc T1=300; //K r=15; y=1.4; //p3/p1=70 T2=T1*(r)^(y-1); //p2/p1=r^y //p2=44.3*p1 T3=1400; //K; T3=T2*p3/p2 T4=T3 + (T3-T2)/y; //v1/v3=15 //v4=0.084*v1 //v5=v1 //T5=T4*(v5/v1)^(y-1) T5=656.9; //K n_airstandard=1-(T5-T1)/((T3-T2) + y*(T4-T3)); disp("Efficiency =") disp(n_airstandard) disp("Reasons for actual thermal efficiency being different from the theoretical value :") disp("1. In theoretical cycle working substance is taken air whereas in actual cycle air with fuel acts as working substance") disp("2. The fuel combustion phenomenon and associated problems like dissociation of gases, dilution of charge during suction stroke, etc. have not been taken into account") disp("3. Effect of variable specific heat, heat loss through cylinder walls, inlet and exhaust velocities of air/gas etc. have not been taken into account.")
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clc clear //DATA GIVEN T1=20+273; //temperature in K p1=1; //pressure in bar p2=10; //pressure in bar Cv=0.718; //in kJ/kgK //law of compression, pV^1.2=C n=1.2; R=0.287; //in kJ/kgK //(T2/T1)=(p2/p1)^((n-1)/n); T2=T1*(p2/p1)^((n-1)/n); //temp. T2 in K m=1; W=(n)/(n-1)*m*R*T1*[(p2/p1)^((n-1)/n)-1]; //work done per kg of air (kJ/kg of air) //By the First Law of Thermodynamics //heat transferred during compression, Q=W+DU //Q=(p1V1-p2V2)/(n-1)+Cv(T2-T1) //Q=(T2-T1)*[Cv-R/(n-1)] Q=(T2-T1)*[Cv-R/(n-1)]; printf(' (i) The Temperature at the end of compression is: %3.0f K or %3.0f deg. celsius. \n',T2,(T2-273)); printf(' (ii) The Work done during compression per kg of air is: %3.2f kJ/kg of air. \n',W); printf(' The Heat transferred during compression per kg of air is: %2.2f kJ/kg of air. \n',Q); printf(' (Negative sign indicates heat REJECTION.) \n');
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Im=250/1000 w=100 r=4 L=50/1000 t=25/1000 i=Im*sin(w*t) Vr=i*r Vl=Im*L*w*cos(w*t) Pr=i*i*r Pl=Vl*i wl=1/2*L*i*i wl_min=0 //min current =0 wl_max=1/2*L*Im*Im //Im is the max current disp("All values in Joules") disp(wl_max,wl_min,wl,Pl,Pr)
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//chapter 19 //example 19.20 //page 865 printf("\n") printf("given") Vcc=12;Rl=10;Rd=.5;gfs=2.5;R7=820;V9=1*10^3;R10=R9; Vp=(Vcc*Rl)/(Rd+Rl) Ip=Vp/Rl Vgs=Ip/gfs Vr7=Is*R7 Vs=Vcc-Vr7-Vgs disp(" op-amp peak output voltage is") Vr9=(Vp*R9)/(R9+R10)
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//ques-16.5 //To show a relation at two different times clc //1st order reaction t1=0.693/k;//time for half reaction a=1; x=0.999; t2=(2.303/k)*log10(a/(a-x));//time for 99.9% of reaction z=t2/t1; printf("Time required for 99.9 percent of reaction to take place is about %.0f times that is required for half the reaction.",z);
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//Oger romain Careme Shanézia //A) clc xdel(winsid()) v0=zeros(1,50) v1= 10.*ones(1,50) v2= 0:0.3:10 v5=-3:0.2:7 v6= 25.*(2,2,2).^(2.2.2) //B.1) function r = f(x) r=(1+x).*sin(%pi.*x) endfunction x=linspace(-2,2,100) y= f(x) fenetre = figure("Figure_name", "fonction f", "position", [100 50 1000 600]) fenetre.background = color("white") set("current_figure", fenetre) subplot(2, 2, 1) plot2d(x' ,y' , style=[color("black")]) //B.2) function r2 =p1(x) r2 = %pi.*x endfunction plot2d(x,p1(x), style=[color("blue")]) function r3 =p2(x) r3=%pi.*x+%pi.*x^2 endfunction plot2d(x,p2(x), style=[color("green")]) //C.1) function r4=G(t,y) r4=y/t+t.*log(t) endfunction a=1 t=linspace(1,4,100) u=1 y = ode("rk", u, a, t, G) subplot(2, 2, 2) plot2d(t', y', style=[color("black")]) //C.2) for u = [-2 2] y = ode("rk", u, a, t, G) plot2d(t', y', style=[color("black")]) end;
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//"paint" a scene with a laser pointer in realtime //speed of update depends on speed of camera + processor //could also easily be used on a video file n = aviopen("video.avi"); for idx=1:15, //give the camera time to auto white balance im1=avireadframe(n); end; im3prime = rgb2gray(im1); //save our "primary scene" im3 = im3prime; imshow(im3); //show us our primary scene for ido=1:15, mask = zeros(im3); //clear out our mask quickly for idx=1:3, //or however many frames/sec you can process //tic; im2=avireadframe(n); //read a frame in //subtract the greyscale current image from the primary scene //then take that logical array, convert to numerical and //use it as a mask over im3 mask = mask + bool2s(imsubtract(rgb2gray(im2), im3prime) > 50); //imshow(im3); //toc end; im3(mask == 1) = 255; imshow(im3); end; avicloseall();
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THE OPTIMIZATION ALGORITHM HAS CHANGED TO THE EM ALGORITHM. ESTIMATED COVARIANCE MATRIX FOR PARAMETER ESTIMATES 1 2 3 4 5 ________ ________ ________ ________ ________ 1 0.273657D+00 2 -0.205152D-02 0.228142D-02 3 -0.781986D-01 0.249605D-02 0.437536D+00 4 0.249634D-02 -0.391364D-03 -0.574000D-02 0.362358D-02 5 -0.441808D-03 0.221909D-03 0.886663D-03 -0.102485D-03 0.331099D-02 6 -0.213709D-03 -0.147169D-04 0.794491D-03 -0.317961D-04 -0.146504D-03 7 -0.346827D-02 0.172256D-03 0.332004D-02 -0.914206D-04 -0.377447D-03 8 -0.176839D-02 -0.333959D-04 -0.779362D-03 0.537997D-04 0.158284D-03 9 -0.371635D+00 0.107365D-01 0.416846D+00 -0.324375D-02 0.297251D-01 10 -0.230294D+00 0.192732D-01 0.287061D+00 -0.197032D-01 0.162804D+00 11 -0.212170D-01 -0.366835D-02 -0.167310D+00 -0.333903D-02 -0.695192D-01 12 0.105892D+00 -0.871820D-02 0.630723D+00 0.281950D-01 0.173767D-01 13 -0.126749D+00 -0.120061D-01 0.192864D+00 -0.438795D-02 -0.307272D-01 14 -0.470711D+00 0.640958D-03 0.126631D+00 -0.114838D-02 0.357473D-01 15 -0.972666D+00 -0.234296D-01 -0.380893D+00 -0.162440D-01 -0.318167D-01 16 0.388198D-01 -0.135739D-01 -0.239703D-01 0.634363D-04 0.340063D-03 17 -0.965849D-02 0.280495D-03 0.217505D-02 -0.501277D-05 -0.860535D-03 18 -0.220624D+00 0.118019D-02 0.387005D+00 -0.487367D-01 -0.373957D-01 19 -0.436671D-01 0.977281D-02 0.130612D+00 -0.303836D-02 -0.561968D-02 20 0.236286D-01 -0.164497D-02 0.196748D+01 0.456826D-02 0.894516D-01 21 -0.110674D-01 -0.611559D-02 -0.166317D+00 0.729025D-02 0.350852D-02 22 0.340542D-02 -0.301422D-03 0.101420D-02 0.127187D-03 0.545052D-03 23 -0.321284D-01 0.457443D-02 -0.191236D-01 0.114908D-01 0.883049D-03 24 0.715040D-02 -0.717753D-04 0.178065D-02 -0.413818D-03 -0.587390D-03 ESTIMATED COVARIANCE MATRIX FOR PARAMETER ESTIMATES 6 7 8 9 10 ________ ________ ________ ________ ________ 6 0.579877D-03 7 0.942587D-03 0.535315D-02 8 -0.110662D-03 -0.138201D-03 0.313302D-02 9 -0.107940D-01 0.138957D-01 0.974633D-02 0.334373D+02 10 -0.148454D-01 -0.419423D-01 0.165800D-01 0.124417D+01 0.191978D+02 11 0.109719D-01 0.172596D-01 0.485087D-01 -0.241426D+01 -0.278280D+01 12 -0.163730D-01 -0.185486D-01 0.874612D-01 0.940166D+01 0.114937D+01 13 0.562617D-01 0.193456D+00 -0.298063D-01 0.794428D+00 -0.390925D+01 14 -0.559796D-03 0.611380D-01 0.401494D+00 0.219274D+01 0.678886D+01 15 -0.658012D-02 0.109625D+00 0.239412D-01 0.695619D+00 -0.773281D+01 16 0.410291D-04 0.239697D-04 0.372986D-03 0.354118D+00 -0.779390D-01 17 0.255283D-03 -0.369778D-04 0.172196D-03 -0.838084D-01 -0.238747D-01 18 -0.240168D-01 -0.110616D+00 0.332558D-01 -0.393813D+01 -0.579600D+00 19 -0.207297D-02 0.345410D-01 0.119824D-01 -0.511431D+00 -0.486428D+00 20 0.142345D-01 0.163604D+00 -0.368328D+00 0.598526D+01 0.427405D+01 21 0.258803D-02 -0.280355D-01 -0.819400D-02 0.653352D+00 0.522438D+00 22 -0.157687D-03 -0.693170D-03 -0.119309D-03 -0.146016D-02 0.258678D-01 23 -0.737261D-03 0.321723D-03 -0.471839D-03 0.599330D-01 -0.488374D-01 24 0.155886D-03 -0.159123D-03 0.220817D-03 -0.196980D-01 -0.423736D-01 ESTIMATED COVARIANCE MATRIX FOR PARAMETER ESTIMATES 11 12 13 14 15 ________ ________ ________ ________ ________ 11 0.378613D+02 12 0.142963D+01 0.167816D+03 13 -0.212524D+01 -0.164264D+01 0.191167D+02 14 0.408861D+01 0.105685D+02 -0.171532D+01 0.115231D+03 15 -0.216854D+00 -0.116872D+01 0.340812D+01 0.887357D+01 0.172437D+03 16 -0.150544D+00 -0.174258D+00 0.178697D+00 0.467532D+00 0.204658D+01 17 0.312364D-01 -0.195523D-01 0.330598D-01 -0.682718D-02 -0.768023D+00 18 0.267550D+01 -0.672060D+01 -0.579966D+01 0.683125D+01 -0.118904D+02 19 0.519681D+00 -0.220626D+00 0.255885D+00 0.444723D+01 -0.248370D+01 20 -0.973568D+01 -0.247108D+02 0.113220D+02 -0.755072D+02 0.300515D+01 21 -0.177325D+00 -0.474023D+00 -0.252489D+00 -0.364765D+01 0.237793D+01 22 -0.595386D-01 0.118856D+00 -0.378551D-01 -0.246316D-01 0.384280D-01 23 -0.479349D-01 0.144526D+01 -0.260963D-01 -0.338926D+00 0.186587D-02 24 -0.122469D-01 -0.171213D+00 -0.152302D-01 -0.121955D-02 -0.103828D-01 ESTIMATED COVARIANCE MATRIX FOR PARAMETER ESTIMATES 16 17 18 19 20 ________ ________ ________ ________ ________ 16 0.383951D+00 17 -0.313813D-01 0.938482D-02 18 -0.310884D+00 0.779996D-01 0.182036D+03 19 -0.216979D+00 0.292893D-01 0.345465D+01 0.541738D+01 20 0.483268D+00 -0.878060D-01 -0.531354D+02 0.228433D+01 0.559316D+03 21 0.201809D-01 -0.837707D-02 0.135663D+01 -0.487649D+01 -0.441022D+01 22 0.109996D-01 -0.187655D-02 -0.877341D+00 -0.302099D-01 0.171456D+00 23 -0.413591D-02 -0.296541D-03 -0.155437D+01 -0.505272D-01 0.550194D+01 24 -0.226314D-02 0.771861D-04 0.250218D+00 0.658255D-02 -0.243416D+01 ESTIMATED COVARIANCE MATRIX FOR PARAMETER ESTIMATES 21 22 23 24 ________ ________ ________ ________ 21 0.559130D+01 22 -0.273095D-01 0.941550D-02 23 -0.166811D+00 0.147971D-01 0.888501D+00 24 0.146549D-01 -0.184896D-02 -0.802875D-01 0.259278D-01 ESTIMATED CORRELATION MATRIX FOR PARAMETER ESTIMATES 1 2 3 4 5 ________ ________ ________ ________ ________ 1 1.000 2 -0.082 1.000 3 -0.226 0.079 1.000 4 0.079 -0.136 -0.144 1.000 5 -0.015 0.081 0.023 -0.030 1.000 6 -0.017 -0.013 0.050 -0.022 -0.106 7 -0.091 0.049 0.069 -0.021 -0.090 8 -0.060 -0.012 -0.021 0.016 0.049 9 -0.123 0.039 0.109 -0.009 0.089 10 -0.100 0.092 0.099 -0.075 0.646 11 -0.007 -0.012 -0.041 -0.009 -0.196 12 0.016 -0.014 0.074 0.036 0.023 13 -0.055 -0.057 0.067 -0.017 -0.122 14 -0.084 0.001 0.018 -0.002 0.058 15 -0.142 -0.037 -0.044 -0.021 -0.042 16 0.120 -0.459 -0.058 0.002 0.010 17 -0.191 0.061 0.034 -0.001 -0.154 18 -0.031 0.002 0.043 -0.060 -0.048 19 -0.036 0.088 0.085 -0.022 -0.042 20 0.002 -0.001 0.126 0.003 0.066 21 -0.009 -0.054 -0.106 0.051 0.026 22 0.067 -0.065 0.016 0.022 0.098 23 -0.065 0.102 -0.031 0.203 0.016 24 0.085 -0.009 0.017 -0.043 -0.063 ESTIMATED CORRELATION MATRIX FOR PARAMETER ESTIMATES 6 7 8 9 10 ________ ________ ________ ________ ________ 6 1.000 7 0.535 1.000 8 -0.082 -0.034 1.000 9 -0.078 0.033 0.030 1.000 10 -0.141 -0.131 0.068 0.049 1.000 11 0.074 0.038 0.141 -0.068 -0.103 12 -0.052 -0.020 0.121 0.126 0.020 13 0.534 0.605 -0.122 0.031 -0.204 14 -0.002 0.078 0.668 0.035 0.144 15 -0.021 0.114 0.033 0.009 -0.134 16 0.003 0.001 0.011 0.099 -0.029 17 0.109 -0.005 0.032 -0.150 -0.056 18 -0.074 -0.112 0.044 -0.050 -0.010 19 -0.037 0.203 0.092 -0.038 -0.048 20 0.025 0.095 -0.278 0.044 0.041 21 0.045 -0.162 -0.062 0.048 0.050 22 -0.067 -0.098 -0.022 -0.003 0.061 23 -0.032 0.005 -0.009 0.011 -0.012 24 0.040 -0.014 0.025 -0.021 -0.060 ESTIMATED CORRELATION MATRIX FOR PARAMETER ESTIMATES 11 12 13 14 15 ________ ________ ________ ________ ________ 11 1.000 12 0.018 1.000 13 -0.079 -0.029 1.000 14 0.062 0.076 -0.037 1.000 15 -0.003 -0.007 0.059 0.063 1.000 16 -0.039 -0.022 0.066 0.070 0.252 17 0.052 -0.016 0.078 -0.007 -0.604 18 0.032 -0.038 -0.098 0.047 -0.067 19 0.036 -0.007 0.025 0.178 -0.081 20 -0.067 -0.081 0.109 -0.297 0.010 21 -0.012 -0.015 -0.024 -0.144 0.077 22 -0.100 0.095 -0.089 -0.024 0.030 23 -0.008 0.118 -0.006 -0.033 0.000 24 -0.012 -0.082 -0.022 -0.001 -0.005 ESTIMATED CORRELATION MATRIX FOR PARAMETER ESTIMATES 16 17 18 19 20 ________ ________ ________ ________ ________ 16 1.000 17 -0.523 1.000 18 -0.037 0.060 1.000 19 -0.150 0.130 0.110 1.000 20 0.033 -0.038 -0.167 0.041 1.000 21 0.014 -0.037 0.043 -0.886 -0.079 22 0.183 -0.200 -0.670 -0.134 0.075 23 -0.007 -0.003 -0.122 -0.023 0.247 24 -0.023 0.005 0.115 0.018 -0.639 ESTIMATED CORRELATION MATRIX FOR PARAMETER ESTIMATES 21 22 23 24 ________ ________ ________ ________ 21 1.000 22 -0.119 1.000 23 -0.075 0.162 1.000 24 0.038 -0.118 -0.529 1.000
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;Below code can be used to test dar_exercise_2 free record request go record request( 1 zipcode = vc 1 cki = vc 1 disp_line = vc 1 misc_line = vc ) with protect go free record reply go record reply( 1 qual[*] 2 person_id = f8 ) with protect go ;;The following select can be used to run the exercise in any environment select into "nl:" a.zipcode_key from address a, orders o plan a where a.parent_entity_name = "PERSON" join o where o.person_id = a.parent_entity_id detail request->zipcode = a.zipcode_key request->cki = o.cki request->disp_line = o.clinical_display_line request->misc_line = o.dept_misc_line with nocounter, maxqual(a, 1) go dar_exercise_2 go
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// Copyright (C) 2015 - IIT Bombay - FOSSEE // // This file must be used under the terms of the CeCILL. // This source file is licensed as described in the file COPYING, which // you should have received as part of this distribution. The terms // are also available at // http://www.cecill.info/licences/Licence_CeCILL_V2-en.txt // Author: Shreyash Sharma // Organization: FOSSEE, IIT Bombay // Email: toolbox@scilab.in function [out]=dctmtx(n) // This function is used to calculate Discrete cosine transform matrix. // // Calling Sequence // D = dctmtx(n) // // Parameters // A: The input scalar of double type. // D : The n-by-n DCT (discrete cosine transform) matrix.. // // Description // D = dctmtx(n) returns the n-by-n DCT (discrete cosine transform) matrix. D*A is the DCT of the columns of A and D'*A is the inverse DCT of the columns of A (when A is n-by-n). // // Examples // i = imread("rice.png",0); // mm = dctmtx(size(i,1)); // ir = mm*i*mm'; // imshow(ir); // out=raw_dctmtx(n); endfunction;
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//Network Theorem 1 //page no-2.26 //example2.19 disp("Applying KVL to mesh 1:"); disp("11*I1-10*I2=2");....//equation 1 disp("Writing current equation to supermesh:") disp("I3-I2=4");....//equation 2 disp("Applying KVL to outer path of supermesh:"); disp("2*I1-3*I2-3*I3=0");....//equation 3 disp("solving these equations we get :");...//solving equations in matrix form A=[11 -10 0;0 -1 1;2 -3 -3]; B=[2 4 0]' X=inv(A)*B; disp(X); I1=-2.35 I2=-2.78 I3=1.22 I4=I1-I2; printf("\ncurrent through the 10 ohm resistor = I1-I2 = %.2f A", I4);
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Sfbdpersdata.sci
// 08.09.21 // 10.02.16 Eps => [Eps, Epsmag] // 13.11.02 bug function Out5=Sfbdpersdata(varargin) global IMPLICITDATA CUSPDATA CUSPPT CUSPSPLITPT; Nargs=length(varargin); Fd=varargin(1); FdL=Fullformfunc(Fd); Np=[50,50]; if Nargs>=2 Np=varargin(2); if type(Np)==1 & length(Np)==1 Np=[Np,Np]; end; end; Eps=[0.05,1]; // if Nargs>=3 Eps=varargin(3); end; if length(Eps)==1 // Eps=[Eps,1]; // end; // Eps2=0.2; if Nargs>=4 Eps2=varargin(4); end; Ts=timer(); [Zval,Xval,Yval]=Evlptablepers(Mix(Fd,Np)); Out3=Implicitplot(Zval,Xval,Yval); IMPLICITDATA=Out3; Mixdisp(Mix('ImplicitData obtained ',timer())); Out4=Cuspsplitpers(Out3,Fd,Eps(1)); // 13.11.02 CUSPDATA=Out4; CUSPPT=CUSPSPLITPT; Mixdisp(Mix('CuspData obtained ',timer())); Out5=Borderpersdata(Out4,Fd,Np,Eps,Eps2); Mixdisp(Mix('BorderData obtained ',timer())); endfunction;
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analyze.sce
screenWidth=1600 screenHeight=800 fileName="result.txt" M=fscanfMat(fileName); s=size(M) m=s(1) maxTime=M(m) mMin=min(M(:,2)) mMax=max(M(:,2)) mMean=mean(M(:,2)) mSigma=st_deviation(M(:,2)) printf("Mean\t%0.6g\nMedian\t%0.6g\nSigma\t%0.6g\nMin\t%0.6g\nMax\t%0.6g\nMax-Min\t%0.6g\n", mMean, median(M(:,2)), mSigma, mMin, mMax, mMax - mMin) xtitle("Sample", "Time, sec", "Voltage, V") plot2d(M(1:m, 1), M(1:m, 2)) xset("wpdim", screenWidth/2, screenHeight/2) xset("wpos", screenWidth/2, 0) scf() xtitle("Distribution", "Voltage") nd=rand(10000, 1, 'normal') * mSigma + mMean histplot(50, M(:, 2)) histplot(50, nd(:), style=5) xset("wpdim", screenWidth/2, screenHeight/2) xset("wpos", 0, screenHeight/2) scf() xtitle("Fourier Transform", "Frequency, Hz", "Intensity") f=fft(M(:, 2)) fl=length(f) rf = real(f) if = imag(f) f = rf .* rf + if .* if x=[0.0 : 1.0 / maxTime : (fl - 1) / maxTime]' plot2d(x(2:fl/2), f(2:fl/2)) xset("wpdim", screenWidth/2, screenHeight/2) xset("wpos", screenWidth/2, screenHeight/2)
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3_7.sce
clear; clc; Ka=0.2*exp(%i*(-%pi/(180/30)));d=1/12; Kb=Ka/exp(%i*%pi*4*d); printf("Desired value of voltage reflection coefficient = %f /_ %f",abs(Kb),atan(imag(Kb),real(Kb))*180/%pi);
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ex14_5.sce
//Chapter-14, Example 14.5, Page 465 //============================================================================= clc clear //INPUT DATA Rf=10*10^3;//feedback resistance in ohms R1=1*10^3;//resistance in ohms //CALCULATIONS Af=-(Rf/R1);//closed-loop voltage gain for inverting amplifier mprintf("Thus closed-loop voltage gain is %d",Af); //=================================END OF PROGRAM=======================================================================================================
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Example_4_4_a.sce
// Chapter4 // Page.No-127, Figure.No-4.19 // Example_4_4_a // Max Output offset voltage // Given clear;clc; R1=470;Rf=47*10^3; Vio=6*10^-3; Ib=500*10^-9; Vs=15; // Max output offset voltage due to input offset voltage,Vio is : Voo=(1+Rf/R1)*Vio; // Max output offset voltage printf("\n Max output offset voltage is = %.3f V dc \n",Voo) // Result // Max output offset voltage due to input offset voltage,Ib is : VoIb=Rf*Ib; // Max output offset voltage printf("\n Max output offset voltage due to input offset current,Ib is = %.6f V dc \n",VoIb) // Result
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Ex4_5.sce
//Electric Power Generation, Transmission and Distribution by S.N.Singh //Publisher:PHI Learning Private Limited //Year: 2012 ; Edition - 2 //Example 4.5 //Scilab Version : 6.0.0 ; OS : Windows clc; clear; LF=0.35; //Load factor in percentage mon_consumption=504; //Monthly consumption in kWh max_dem_rate=180; //Maximum demand per kWh in Rs Unit_rate=2.00; //Unit rate of electricity per kWh in Rs max_dem1=mon_consumption/(LF*24*30); //Maximum demand of consumer in kW mon_bill1=(max_dem1*max_dem_rate)+(Unit_rate*mon_consumption); //Monthly bill of consumer in Rs overall_cost1=mon_bill1/mon_consumption; //Overall cost of consumer in Rs new_consumption=mon_consumption*1.20; //New consumption of consumer in kWh max_dem2=new_consumption/(LF*24*30); //Maximum demand of same Load factor in kW mon_bill2=(max_dem2*max_dem_rate)+(Unit_rate*new_consumption); //Monthly bill of consumer in Rs overall_cost2=mon_bill2/new_consumption; //Overall cost of consumer in Rs max_dem3=mon_consumption/(0.40*24*30); //Maximum demand of increased load factor in kW mon_bill3=(max_dem3*max_dem_rate)+(Unit_rate*mon_consumption); //Monthly bill of consumer in Rs overall_cost3=mon_bill3/mon_consumption; //Overall cost of consumer in Rs printf("\nThe monthly bill is %.f Rs and the average cost per KWh is %.2f Rs",mon_bill1,overall_cost1); printf("\nThe overall cost per kWh if the consumption is increased by 20 percentage with the same load factor is %.2f Rs",overall_cost2); printf("\nThe overall cost per kWh if the consumption remains same but loadfactor is increased to 40 percentage is %.2f Rs",overall_cost3);
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Ex5_39.sce
//Ex:5.39 clc; clear; close; printf("Directivity: The max directive gain is called directivity of an antenna."); printf("\n Directivity= max radiation intensity of test antenna/average radiation intensity of test antenna "); printf("\n Polarization: Polarization of an antenna means the direction of electric field of the electromagnetic wave being radiated by the transmitting syatem."); printf("\n Virtual Height: Virtual height of an ionospheric layer may be defined as the height to which short pulse of energy sent vertically upward and travelling with speed of light would reach taking the same ways travel time as does the actual pulse reflected from the layer."); printf("\n Practically the virtual height is alway greater than actual height");
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Ex25_2.sce
//Example 25_2 clc(); clear; //How long it would take according to earth clock for a space ship to make a round trip fac=0.9990 //Units in c relfactor=sqrt(1-fac^2) //units in constant time1=4.5 //Units in Years time=2*time1 //Units in Years oritime=relfactor*time //Units in years printf("The original time that is required to complete a round trip is=%.1f Years or %d Months",oritime,round(12*oritime))
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example12_15.sce
//clc() //CO(g) + H2O(g) = CO2(g) + H2(g) H298 = -41.190 T1 = 298;//K Pconv = 75;//% T2 = 800;//K H298 = -41.190;//kJ Hco = 30.35;//J/molK Hco2 = 45.64;//J/molK Hwater = 36;//J/molK Hh2 = 29.3;//J/molK Nco = 1;//mol Nh2o = 1;//mol Ncofinal = Nco * (1 - Pconv/100); Nwaterf = Ncofinal; Nco2final = Nco - Ncofinal; Nh2final = Nco2final; H2 = (Nco2final * Hco2 + Nh2final * Hh2 + Ncofinal * Hco + Nwaterf * Hwater) * (T2 - T1); Hr1 = H298 * (Nco - Ncofinal); Hr2 = Hr1 * 1000 + H2; mh2 = Nh2final * 2.016 * 10^-3;//kg //therfore for 1000k H2, Hr = Hr2 * 1000 / (mh2 * 1000);//kJ disp("kJ",Hr,"Amount of heat change for 1000kg of hydrogen produced = ")
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Ch09Ex1.sce
// Scilab code Ex9.1: Pg 277 (2008) clc; clear; // Part (a) V_Z = 9.1; // Zener voltage of zener diode, volt P_Z = 0.5; // Power rating of zener diode at V_Z, W r_Z = 1.5; // Slope resistance of zener diode, ohm V = 12; // Nominal value of input voltage, volt R_L = 2.5e+03; // Load resistance across zener diode, ohm I_Z = P_Z/V_Z*1e+03; // Zener current, mA I_S = I_Z; // Current through series resistor, mA V_S = V - V_Z; // Voltage drop across series resistor, volt R_S = V_S/I_S*1e+03; // Value of series resistance, ohm P_max = (I_S*1e-03)^2*R_S; // Maximum power rating of series resistance, W printf("\nThe value of series resistance = %5.2f ohm", R_S); printf("\nThe value of maximum power rating of series resistance = %4.2f W", P_max); printf("\n(a) The suitable value of R_S should be 54 ohm, 0.25 W"); // Part (b) V_o = V_Z; // Output voltage across zener, volt I_L = V_o/R_L*1e+03; // Load current, mA I_Z = I_S - I_L; // Zener current, mA printf("\n(b) The value of diode current with load resistance across zener = %5.2f mA",I_Z ); // Part (c) V = 12 - (0.1*12); // Final value of input voltage after falling below 12 V, volt R_S = 56; // Standard value of series resistance, ohm I_S = (V - V_Z)/R_S*1e+03; // Current through series resistance, mA I_Z = I_S - I_L; // Resulting diode current, mA delta_I_Z = 51.36 - I_Z; // Change in zener current, mA delta_V_Z = delta_I_Z*1e-03*r_Z; // Change in zener voltage, V change = delta_V_Z/V_Z*100; // %age change in zener voltage printf("\n(c) The percentage change in the p.d. across the load = %4.2f percent",change); // Result // The value of series resistance = 52.78 ohm // The value of maximum power rating of series resistance = 159340.66 W // The suitable value of R_S should be 54 ohm, 0.25 W
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exp_10_5.sce
clear; clc; s=30; v=11; a=complex(-.5,.866); A=[1 1 1;1 a^2 a;1 a a^2]; xs=complex(0,.5); xn=complex(0,.3); xz=complex(0,.08); Z=5; X=(Z*s)/v^2; Xn=complex(0,3*X); Ea=complex(1,0); Ia1=Ea/(Xn+xn+xs+xz); Ia=3*Ia1; Va0=-Ia1*(xz+Xn); Va1=Ea-(Ia1*xs); Va2=-Ia1*xn; V1=[Va0;Va1;Va2]; V=A*V1; Vab=V(1,1)-V(2,1); Vbc=V(2,1)-V(3,1); Vca=V(3,1)-V(1,1); Ibase=(s*1000)/(sqrt(3)*v); If=Ia1*Ibase; Vab1=Vab*(v/sqrt(3)); Vbc1=Vbc*(v/sqrt(3)); Vca1=Vca*(v/sqrt(3)); mprintf("Sub transient fault current is %.3f A \n",imag(If)); mprintf("Actual Line Voltages are Vab=%f+%f Kv Vbc=%f%f Kv Vca=%f+%f Kv",real(Vab1),imag(Vab1),real(Vbc1),imag(Vbc1),real(Vca1),imag(Vca1));
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Ex19_1.sce
clc; clear; mprintf('MACHINE DESIGN \n Timothy H. Wentzell, P.E. \n EXAMPLE-19.1 Page No.417\n'); //Length F=20; n=500; PV=3000; L1=%pi*F*n/(12*PV); //Use 7/8-inch or longer bearing L=7/8; mprintf('\n Length of bearing = %f in.',L); //Maximum pressure A=(3/4)*(7/8); P=F/A; mprintf('\n Maximum pressure = %f lb/in^2.',P); //Maximum velocity D=3/4; V=%pi*D*n/12; mprintf('\n Maximum velocity = %f ft/min.',V);
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Exa7_e.sce
//Exa 7(v) clc; clear; close; // given data : //mix ratio is not same SQa=10//in Kgs AQa=10//in Kgs SPa=8//in rupees per Kgs APa=7//in rupees per Kgs SQb=8//in kg AQb=9//in Kg SPb=6//in rupees per Kg APb=7//in rupees per Kg SQc=4//in kg AQc=5//in Kg SPc=12//in rupees per Kg APc=11//in rupees per Kg RSQa=(SQa*24)/(22); RSQb=(SQb*24)/(22); RSQc=(SQc*24)/(22); //(5) Material sub usage variance MSUVa=SPa*(SQa-RSQa); MSUVb=SPb*(SQb-RSQb); MSUVc=SPc*(SQc-RSQc); disp(MSUVa,"MSUV="); disp(MSUVb,"MSUV="); disp(MSUVc,"MSUV="); disp("Note : ") disp("Negative variances indicate adverse value "); disp("Positive variances indicate favourable value ");
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Example35_4.sce
//Given that L= 10 //in cm f1 = 24 //in cm f2 = 9 //in cm xo = -6 //in cm //Sample Problem 35-4 printf("**Sample Problem 35-4**\n") xi1 = xo*f1/(xo+f1) xo2 = xi1 - L xi2 = xo2*f2/(xo2+f2) printf("The final image will be at a distance of %dcm from the second mirror", xi2)
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Ex8_2.sce
clear // //given pg=10 //poles of generator r=720 //synchronous speed f=pg*r/120 printf("\n frequency= %0.0f Hz",f) //it has been shown that synchronous motor runs at a speed lower than the synchronous speed.The nearest synchronous speed possible in present case is 1200 //case a r=1200 //synchronous speed possible for present case pi=120*f/r //poles of the induction motor printf("\n The number of poles of an induction motor is= %0.1f",pi ) //case b n=1170 //load speed slip=(1200-n)/1200 //calculated as 0.025 printf("\n slip=0.025pu")
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ProductMix.sce
//Refernce: H.P. Williams,"Model building in mathematical programming",Fifth Edition,AJohn Wiley & Sons, Ltd., Publication,2013, chapter 1.2 //An engineering factory can produce five types of product (PROD 1, PROD 2,... , PROD 5) by using two production processes: grinding and drilling. After deducting raw material costs, each unit of each product yields the following contributions to profit: // ===================================================== // PROD1 PROD2 PROD3 PROD4 PROD5 // 550 600 350 400 200 // ===================================================== //Each unit requires a certain time on each process. These are given below (in //hours). A dash indicates when a process is not needed. // ================================================================= // PROD1 PROD2 PROD3 PROD4 PROD5 // ----------------------------------------------------------------- // Grinding 12 20 - 25 15 // Drilling 10 8 16 - - // ================================================================= //In addition, the final assembly of each unit of each product uses 20 hours of //an employee’s time. The factory has three grinding machines and two drilling machines and works a six-day week with two shifts of 8 hours on each day. Eight workers are employed in assembly, each working one shift a day. The problem is tofind how much of each product is to be manufactured so as to maximize the totalprofit contribution. The minimum demand for each product is added to this problem and details are as follows // ================================================================= // PROD1 PROD2 PROD3 PROD4 PROD5 // ----------------------------------------------------------------- // Demand 5 5 2 7 2 // ================================================================= //============================================================================= // Copyright (C) 2015 - IIT Bombay - FOSSEE // This file must be used under the terms of the CeCILL. // This source file is licensed as described in the file COPYING, which // you should have received as part of this distribution. The terms // are also available at // http://www.cecill.info/licences/Licence_CeCILL_V2-en.txt // Author: Remya Kommadath // Organization: FOSSEE, IIT Bombay // Email: toolbox@scilab.in //============================================================================ clc; nProducts = 5; nMachines = [3 2]; nWorkers = 8; nDays = 6; nHours = 8; nMachineShift = 2; nWorkerShift = 1; prodProfit = [550 600 350 400 200]'; ProcessingTime = [12 20 0 25 15; 10 8 16 0 0; 20*ones(1,nProducts)]; // Linear inequalities A1 = ProcessingTime; b1 = (nDays*nHours)*[nMachines*nMachineShift nWorkers*nWorkerShift]'; // Demand constraints A2 = [-1 0 0 0 0;0 -1 0 0 0;0 0 -1 0 0; 0 0 0 -1 0; 0 0 0 0 -1]; b2 = [-5 -5 -2 -7 -2]'; A = [A1;A2]; b = [b1;b2]; lb = zeros(1,nProducts); Cost = -prodProfit; [xopt,fopt,exitflag,output,lambda]=linprog(Cost, A, b, [], [], lb,[]); // Result representation select exitflag case 0 disp(" Optimal Solution Found") P = []; for p = 1:nProducts P = [P strcat(["PROD",string(p)])]; end disp([P;string(xopt')]); disp(["The optimal cost is ", string(fopt)]) case 1 disp("Primal Infeasible") nViolatedConstraints = sum(A*xopt-b>0) if nViolatedConstraints disp(strcat(["No of constraints violated : ", string(nViolatedConstraints)])); end case 2 disp("Dual Infeasible") case 3 disp("Maximum Number of Iterations Exceeded. Output may not be optimal") case 4 disp("Solution Abandoned") case 5 disp("Primal objective limit reached") case 6 disp("Dual objective limit reached") end
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Ex1_9.sce
//=========================================================================== //chapter 1 example 9 clc; clear all; //variable declaration s = 4000; //instrument sensitivity in kΩ R = 10; //range of scale R0 = 20; //output resistance in kΩ E0 = 7.5; //open circuit voltage //calculations RL =s*R; //instrument resistance in kΩ RL1 = RL*10^-3; EL = E0/(1+(R0/(RL1))); //measured value of voltage in V p = ((EL-E0)/(E0))*100; //percentage error in % //result mprintf("measured value of voltage = %3.2f V",EL); mprintf("\npercentage error = %3.2f V percentage low",p);
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Ex1_4.sce
//Chapter1,Example1.4,Pg1.10 clc; l1=100 //length of the wire in metres A1=0.1*10^-6 //area of the wire in metres p=50*10^-8 //resistivity of the wire in ohm metre R1=p*l1/A1 printf("\n Resistance before drawing out the wire = %1f ohms\n",R1) printf("\n Volume of the wire before drawing out=Volume of the wire after drawing out \n") A2=A1/3 l2=3*l1 R2=p*l2/A2 printf("\n Resistance after drawing out = %1f ohms \n",R2) a=R2/R1 printf("\n The Ratio of the resistances is = %1f \n",a)
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Ex12_20.sce
//Chapter 12 : Solutions to the Exercises //Scilab 6.0.1 //Windows 10 clear; clc; //Solution for 4.10 A=[1 1 2 1;0 -2 0 0;1 2 1 -2;0 3 2 1] disp(A^-1)
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clear clc //to find angular displacement of grindstone 2.7 seconds later //to find angular speed of grindstone 2.7 seconds later // GIVEN: //refer to the figure 8-7 from page no. 165 //constant angular acceleration of grindstone in +ve z direction az = 3.2//in rad/s^2 //time initervalfor calculating angular acceleration and angular displacement t = 2.7//in seconds //initially angular displacement fi_0 = 0//in rad //initially angular velocity in +ve z direction w0z = 0//in rad/s // SOLUTION: //consider angular velocity in +ve z direction //using kinematic equation of motion for rotational motion //angular displacement of grindstone 2.7 seconds later fi = fi_0 + (w0z*t) + (0.5*az*t^2)//in rad //angular speed of grindstone 2.7 seconds later wz = w0z + (az*t)//in rad/s printf ("\n\n Angular displacement of grindstone 2.7 seconds later fi = \n\n %.1f rad",fi); printf ("\n\n Angular speed of grindstone 2.7 seconds later wz = \n\n %.1f rad/s",wz);
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errcatch(-1,"stop");mode(2); //Solving the problem Q=84-8.4-21+4.2; printf('The Net Work Done= %2.1f kJ',Q); //Displaying result exit();
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# TestMtr Version #0.6, Release date 2/6/12 # mtr/testmtr -p 2 ./mtr/test.groups N=0x1676020 C=0x16760e0 Y=0x0 E=0x0 P=0x0 F=0 L=0 S=0 N=0x16760e0 C=0x0 Y=0x1676120 E=0x0 P=0x1676020 F=3 L=0 S=0 N=0x1676120 C=0x0 Y=0x1676060 E=0x16760e0 P=0x1676020 F=4 L=0 S=0 N=0x1676060 C=0x0 Y=0x16760a0 E=0x1676120 P=0x1676020 F=1 L=0 S=0 N=0x16760a0 C=0x0 Y=0x0 E=0x1676060 P=0x1676020 F=2 L=0 S=0 #------------------------ N=0x1676020 C=0x0 Y=0x0 E=0x0 P=0x0 F=0 L=0 S=12 # (0,11) N=0x1676020 C=0x16760e0 Y=0x0 E=0x0 P=0x0 F=0 L=0 S=12 N=0x16760e0 C=0x0 Y=0x1676120 E=0x0 P=0x1676020 F=0 L=0 S=6 N=0x1676120 C=0x0 Y=0x0 E=0x16760e0 P=0x1676020 F=0 L=6 S=6 # (0(0,5)(6,11)11) N=0x1676020 C=0x16761a0 Y=0x0 E=0x0 P=0x0 F=0 L=0 S=12 N=0x16761a0 C=0x16760e0 Y=0x0 E=0x0 P=0x1676020 F=4 L=0 S=12 N=0x16760e0 C=0x1676060 Y=0x1676120 E=0x0 P=0x16761a0 F=0 L=0 S=6 N=0x1676060 C=0x0 Y=0x16760a0 E=0x0 P=0x16760e0 F=0 L=0 S=2 N=0x16760a0 C=0x0 Y=0x1676160 E=0x1676060 P=0x16760e0 F=0 L=2 S=2 N=0x1676160 C=0x0 Y=0x0 E=0x16760a0 P=0x16760e0 F=0 L=4 S=2 N=0x1676120 C=0x0 Y=0x0 E=0x16760e0 P=0x16761a0 F=0 L=6 S=6 # (0(0(0(0,1)(2,3)(4,5)5)(6,11)11|F)11) # (0(0(0,1)(2,3)(4,5)5)(6,11)11|F) N=0x1676020 C=0x16761a0 Y=0x0 E=0x0 P=0x0 F=0 L=0 S=12 N=0x16761a0 C=0x1676060 Y=0x0 E=0x0 P=0x1676020 F=4 L=0 S=12 N=0x1676060 C=0x0 Y=0x16760a0 E=0x0 P=0x16761a0 F=0 L=0 S=2 N=0x16760a0 C=0x0 Y=0x1676160 E=0x1676060 P=0x16761a0 F=0 L=2 S=2 N=0x1676160 C=0x0 Y=0x1676120 E=0x16760a0 P=0x16761a0 F=0 L=4 S=2 N=0x1676120 C=0x0 Y=0x0 E=0x1676160 P=0x16761a0 F=0 L=6 S=6 # (0(0(0,1)(2,3)(4,5)(6,11)11|F)11) N=0x1676020 C=0x16761a0 Y=0x0 E=0x0 P=0x0 F=0 L=0 S=12 N=0x16761a0 C=0x1676060 Y=0x0 E=0x0 P=0x1676020 F=4 L=0 S=12 N=0x1676060 C=0x0 Y=0x16760a0 E=0x0 P=0x16761a0 F=0 L=0 S=2 N=0x16760a0 C=0x0 Y=0x1676120 E=0x1676060 P=0x16761a0 F=0 L=2 S=2 N=0x1676120 C=0x0 Y=0x1676160 E=0x16760a0 P=0x16761a0 F=0 L=4 S=6 N=0x1676160 C=0x0 Y=0x0 E=0x1676120 P=0x16761a0 F=0 L=10 S=2 # (0(0(0,1)(2,3)(4,9)(10,11)11|F)11) #------------------------ N=0x1676020 C=0x0 Y=0x0 E=0x0 P=0x0 F=0 L=0 S=4 # (0,3) N=0x1676020 C=0x16761a0 Y=0x0 E=0x0 P=0x0 F=0 L=0 S=4 N=0x16761a0 C=0x0 Y=0x1676060 E=0x0 P=0x1676020 F=4 L=0 S=2 N=0x1676060 C=0x0 Y=0x0 E=0x16761a0 P=0x1676020 F=4 L=2 S=2 # (0(0,1|F)(2,3|F)3) #------------------------ N=0x1676020 C=0x1676060 Y=0x0 E=0x0 P=0x0 F=0 L=0 S=12 N=0x1676060 C=0x16760e0 Y=0x16760a0 E=0x0 P=0x1676020 F=0 L=0 S=6 N=0x16760e0 C=0x0 Y=0x1676120 E=0x0 P=0x1676060 F=0 L=0 S=2 N=0x1676120 C=0x0 Y=0x1676160 E=0x16760e0 P=0x1676060 F=0 L=2 S=2 N=0x1676160 C=0x0 Y=0x0 E=0x1676120 P=0x1676060 F=0 L=4 S=2 N=0x16760a0 C=0x0 Y=0x0 E=0x1676060 P=0x1676020 F=4 L=6 S=6 # (0(0(0,1)(2,3)(4,5)5)(6,11|F)11)
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Clown Flick Practice.sce
Name=Clown Flick Practice PlayerCharacters=Gamer BotCharacters=GamerBot.bot;GamerBot.bot;GamerBot.bot IsChallenge=true Timelimit=60.0 PlayerProfile=Gamer AddedBots=GamerBot.bot;GamerBot.bot;GamerBot.bot PlayerMaxLives=0 BotMaxLives=0;0;0 PlayerTeam=2 BotTeams=1;1;1 MapName=hall.map MapScale=3.8125 BlockProjectilePredictors=true BlockCheats=true InvinciblePlayer=false InvincibleBots=false Timescale=1.0 BlockHealthbars=false TimeRefilledByKill=0.0 ScoreToWin=1000.0 ScorePerDamage=3.14157 ScorePerKill=60.0 ScorePerMidairDirect=0.0 ScorePerAnyDirect=0.0 ScorePerTime=0.0 ScoreLossPerDamageTaken=0.0 ScoreLossPerDeath=0.0 ScoreLossPerMidairDirected=0.0 ScoreLossPerAnyDirected=0.0 ScoreMultAccuracy=false ScoreMultDamageEfficiency=true ScoreMultKillEfficiency=false GameTag=Clowngame WeaponHeroTag=FlickmasterPro DifficultyTag=3 AuthorsTag=Stral BlockHitMarkers=false BlockHitSounds=false BlockMissSounds=true BlockFCT=false Description=Gun with random recoil, have to re-adjust every shot on multiple targets. GameVersion=1.0.5 [Aim Profile] Name=Gamer Aim MinReactionTime=0.19 MaxReactionTime=0.23 MinSelfMovementCorrectionTime=0.003 MaxSelfMovementCorrectionTime=0.04 FlickFOV=19.0 FlickSpeed=3.0 FlickError=9.0 TrackSpeed=2.0 TrackError=6.0 MaxTurnAngleFromPadCenter=140.0 MinRecenterTime=0.2 MaxRecenterTime=0.23 OptimalAimFOV=12.0 OuterAimPenalty=1.0 MaxError=35.0 ShootFOV=7.0 VerticalAimOffset=-0.02 MaxTolerableSpread=3.0 MinTolerableSpread=3.0 TolerableSpreadDist=4000.0 MaxSpreadDistFactor=3.0 [Aim Profile] Name=Default MinReactionTime=0.3 MaxReactionTime=0.4 MinSelfMovementCorrectionTime=0.001 MaxSelfMovementCorrectionTime=0.05 FlickFOV=30.0 FlickSpeed=1.5 FlickError=15.0 TrackSpeed=3.5 TrackError=3.5 MaxTurnAngleFromPadCenter=75.0 MinRecenterTime=0.3 MaxRecenterTime=0.5 OptimalAimFOV=30.0 OuterAimPenalty=1.0 MaxError=40.0 ShootFOV=15.0 VerticalAimOffset=0.0 MaxTolerableSpread=5.0 MinTolerableSpread=1.0 TolerableSpreadDist=2000.0 MaxSpreadDistFactor=2.0 [Bot Profile] Name=GamerBot DodgeProfileNames=GamerStepDodge;GamerStepDodgeIg;GamerStepDodgeOp DodgeProfileWeights=1.0;1.0;1.0 DodgeProfileMaxChangeTime=3.8 DodgeProfileMinChangeTime=1.5 WeaponProfileWeights=1.0;1.0;1.0;1.0;1.0;1.0;1.0;1.0 AimingProfileNames=Gamer Aim;Default;Default;Default;Default;Default;Default;Default WeaponSwitchTime=3.0 UseWeapons=false CharacterProfile=GamerBot SeeThroughWalls=true [Character Profile] Name=Gamer MaxHealth=300.0 WeaponProfileNames=Thompson;;;;;;; MinRespawnDelay=0.6 MaxRespawnDelay=1.1 StepUpHeight=70.0 CrouchHeightModifier=0.5 CrouchAnimationSpeed=2.0 CameraOffset=X=0.000 Y=0.000 Z=0.000 HeadshotOnly=false DamageKnockbackFactor=0.1 MovementType=Base MaxSpeed=900.0 MaxCrouchSpeed=700.0 Acceleration=8500.0 AirAcceleration=16000.0 Friction=6.0 BrakingFrictionFactor=1.0 JumpVelocity=800.0 Gravity=3.0 AirControl=0.25 CanCrouch=false CanPogoJump=false CanCrouchInAir=true CanJumpFromCrouch=false EnemyBodyColor=X=0.016 Y=0.440 Z=0.072 EnemyHeadColor=X=0.000 Y=0.894 Z=0.012 TeamBodyColor=X=0.000 Y=0.000 Z=255.000 TeamHeadColor=X=255.000 Y=255.000 Z=255.000 BlockSelfDamage=false InvinciblePlayer=false InvincibleBots=false BlockTeamDamage=false AirJumpCount=0 AirJumpVelocity=800.0 MainBBType=Cuboid MainBBHeight=230.0 MainBBRadius=55.0 MainBBHasHead=true MainBBHeadRadius=45.0 MainBBHeadOffset=0.0 MainBBHide=false ProjBBType=Cuboid ProjBBHeight=230.0 ProjBBRadius=55.0 ProjBBHasHead=true ProjBBHeadRadius=45.0 ProjBBHeadOffset=0.0 ProjBBHide=true HasJetpack=false JetpackActivationDelay=0.2 JetpackFullFuelTime=4.0 JetpackFuelIncPerSec=1.0 JetpackFuelRegensInAir=false JetpackThrust=6000.0 JetpackMaxZVelocity=400.0 JetpackAirControlWithThrust=0.25 AbilityProfileNames=;;; HideWeapon=false AerialFriction=0.0 StrafeSpeedMult=1.0 BackSpeedMult=1.0 RespawnInvulnTime=0.0 BlockedSpawnRadius=0.0 BlockSpawnFOV=0.0 BlockSpawnDistance=0.0 RespawnAnimationDuration=0.1 AllowBufferedJumps=true BounceOffWalls=false LeanAngle=0.0 LeanDisplacement=0.0 AirJumpExtraControl=0.0 ForwardSpeedBias=1.0 HealthRegainedonkill=100.0 HealthRegenPerSec=0.0 HealthRegenDelay=0.0 JumpSpeedPenaltyDuration=0.0 JumpSpeedPenaltyPercent=0.25 [Character Profile] Name=GamerBot MaxHealth=300.0 WeaponProfileNames=ThompsonWeak;;;;;;; MinRespawnDelay=0.6 MaxRespawnDelay=1.1 StepUpHeight=70.0 CrouchHeightModifier=0.5 CrouchAnimationSpeed=2.0 CameraOffset=X=0.000 Y=0.000 Z=0.000 HeadshotOnly=false DamageKnockbackFactor=0.1 MovementType=Base MaxSpeed=1000.0 MaxCrouchSpeed=700.0 Acceleration=800.0 AirAcceleration=16000.0 Friction=6.0 BrakingFrictionFactor=1.0 JumpVelocity=800.0 Gravity=3.0 AirControl=0.25 CanCrouch=false CanPogoJump=false CanCrouchInAir=true CanJumpFromCrouch=false EnemyBodyColor=X=0.016 Y=0.440 Z=0.072 EnemyHeadColor=X=0.000 Y=0.894 Z=0.012 TeamBodyColor=X=0.000 Y=0.000 Z=255.000 TeamHeadColor=X=255.000 Y=255.000 Z=255.000 BlockSelfDamage=false InvinciblePlayer=false InvincibleBots=false BlockTeamDamage=false AirJumpCount=0 AirJumpVelocity=800.0 MainBBType=Cuboid MainBBHeight=120.0 MainBBRadius=25.0 MainBBHasHead=true MainBBHeadRadius=25.0 MainBBHeadOffset=0.0 MainBBHide=false ProjBBType=Cuboid ProjBBHeight=120.0 ProjBBRadius=50.0 ProjBBHasHead=true ProjBBHeadRadius=25.0 ProjBBHeadOffset=0.0 ProjBBHide=true HasJetpack=false JetpackActivationDelay=0.2 JetpackFullFuelTime=4.0 JetpackFuelIncPerSec=1.0 JetpackFuelRegensInAir=false JetpackThrust=6000.0 JetpackMaxZVelocity=400.0 JetpackAirControlWithThrust=0.25 AbilityProfileNames=;;; HideWeapon=true AerialFriction=0.0 StrafeSpeedMult=1.0 BackSpeedMult=1.0 RespawnInvulnTime=0.0 BlockedSpawnRadius=0.0 BlockSpawnFOV=0.0 BlockSpawnDistance=0.0 RespawnAnimationDuration=0.1 AllowBufferedJumps=true BounceOffWalls=false LeanAngle=0.0 LeanDisplacement=0.0 AirJumpExtraControl=0.0 ForwardSpeedBias=1.0 HealthRegainedonkill=0.0 HealthRegenPerSec=30.0 HealthRegenDelay=0.0 JumpSpeedPenaltyDuration=0.0 JumpSpeedPenaltyPercent=0.25 [Dodge Profile] Name=GamerStepDodge MaxTargetDistance=300.0 MinTargetDistance=270.0 ToggleLeftRight=true ToggleForwardBack=true MinLRTimeChange=0.42 MaxLRTimeChange=0.54 MinFBTimeChange=0.42 MaxFBTimeChange=0.61 DamageReactionChangesDirection=true DamageReactionChanceToIgnore=0.3 DamageReactionMinimumDelay=0.2 DamageReactionMaximumDelay=0.24 DamageReactionCooldown=1.1 DamageReactionThreshold=31.0 DamageReactionResetTimer=0.11 JumpFrequency=0.0 CrouchInAirFrequency=0.0 CrouchOnGroundFrequency=0.0 TargetStrafeOverride=Ignore TargetStrafeMinDelay=0.06 TargetStrafeMaxDelay=0.17 MinProfileChangeTime=0.0 MaxProfileChangeTime=0.0 MinCrouchTime=0.49 MaxCrouchTime=0.52 MinJumpTime=0.3 MaxJumpTime=0.6 LeftStrafeTimeMult=1.0 RightStrafeTimeMult=1.0 StrafeSwapMinPause=0.08 StrafeSwapMaxPause=0.09 BlockedMovementPercent=0.7 BlockedMovementReactionMin=0.0 BlockedMovementReactionMax=0.3 [Dodge Profile] Name=GamerStepDodgeIg MaxTargetDistance=300.0 MinTargetDistance=270.0 ToggleLeftRight=true ToggleForwardBack=true MinLRTimeChange=0.31 MaxLRTimeChange=0.42 MinFBTimeChange=0.42 MaxFBTimeChange=0.61 DamageReactionChangesDirection=false DamageReactionChanceToIgnore=0.3 DamageReactionMinimumDelay=0.2 DamageReactionMaximumDelay=0.24 DamageReactionCooldown=1.1 DamageReactionThreshold=31.0 DamageReactionResetTimer=0.11 JumpFrequency=0.0 CrouchInAirFrequency=0.0 CrouchOnGroundFrequency=0.0 TargetStrafeOverride=Ignore TargetStrafeMinDelay=0.06 TargetStrafeMaxDelay=0.17 MinProfileChangeTime=0.0 MaxProfileChangeTime=0.0 MinCrouchTime=0.49 MaxCrouchTime=0.52 MinJumpTime=0.3 MaxJumpTime=0.6 LeftStrafeTimeMult=1.0 RightStrafeTimeMult=1.0 StrafeSwapMinPause=0.08 StrafeSwapMaxPause=0.09 BlockedMovementPercent=0.7 BlockedMovementReactionMin=0.0 BlockedMovementReactionMax=0.3 [Dodge Profile] Name=GamerStepDodgeOp MaxTargetDistance=300.0 MinTargetDistance=270.0 ToggleLeftRight=true ToggleForwardBack=true MinLRTimeChange=0.26 MaxLRTimeChange=0.31 MinFBTimeChange=0.42 MaxFBTimeChange=0.61 DamageReactionChangesDirection=true DamageReactionChanceToIgnore=0.3 DamageReactionMinimumDelay=0.2 DamageReactionMaximumDelay=0.24 DamageReactionCooldown=1.1 DamageReactionThreshold=31.0 DamageReactionResetTimer=0.11 JumpFrequency=0.0 CrouchInAirFrequency=0.0 CrouchOnGroundFrequency=0.0 TargetStrafeOverride=Oppose TargetStrafeMinDelay=0.06 TargetStrafeMaxDelay=0.17 MinProfileChangeTime=0.0 MaxProfileChangeTime=0.0 MinCrouchTime=0.49 MaxCrouchTime=0.52 MinJumpTime=0.3 MaxJumpTime=0.6 LeftStrafeTimeMult=1.0 RightStrafeTimeMult=1.0 StrafeSwapMinPause=0.08 StrafeSwapMaxPause=0.09 BlockedMovementPercent=0.7 BlockedMovementReactionMin=0.0 BlockedMovementReactionMax=0.3 [Weapon Profile] Name=Thompson Type=Hitscan ShotsPerClick=1 DamagePerShot=30.0 KnockbackFactor=12.0 TimeBetweenShots=0.37 Pierces=false Category=FullyAuto BurstShotCount=1 TimeBetweenBursts=0.5 ChargeStartDamage=10.0 ChargeStartVelocity=X=500.000 Y=0.000 Z=0.000 ChargeTimeToAutoRelease=2.0 ChargeTimeToCap=1.0 ChargeMoveSpeedModifier=1.0 MuzzleVelocityMin=X=2000.000 Y=0.000 Z=0.000 MuzzleVelocityMax=X=2000.000 Y=0.000 Z=0.000 InheritOwnerVelocity=0.0 OriginOffset=X=0.000 Y=0.000 Z=0.000 MaxTravelTime=5.0 MaxHitscanRange=100000.0 GravityScale=1.0 HeadshotCapable=true HeadshotMultiplier=2.0 MagazineMax=0 AmmoPerShot=1 ReloadTimeFromEmpty=0.65 ReloadTimeFromPartial=0.65 DamageFalloffStartDistance=100000.0 DamageFalloffStopDistance=100000.0 DamageAtMaxRange=30.0 DelayBeforeShot=0.0 HitscanVisualEffect=Tracer ProjectileGraphic=Ball VisualLifetime=0.05 WallParticleEffect=Flare HitParticleEffect=Blood BounceOffWorld=false BounceFactor=0.5 BounceCount=0 HomingProjectileAcceleration=0.0 ProjectileEnemyHitRadius=1.0 CanAimDownSight=false ADSZoomDelay=0.0 ADSZoomSensFactor=0.7 ADSMoveFactor=1.0 ADSStartDelay=0.0 ShootSoundCooldown=0.08 HitSoundCooldown=0.08 HitscanVisualOffset=X=0.000 Y=0.000 Z=-50.000 ADSBlocksShooting=false ShootingBlocksADS=false KnockbackFactorAir=12.0 RecoilNegatable=false DecalType=1 DecalSize=12.0 DelayAfterShooting=0.0 BeamTracksCrosshair=false AlsoShoot= ADSShoot= StunDuration=0.0 CircularSpread=true SpreadStationaryVelocity=1000000.0 PassiveCharging=false BurstFullyAuto=true FlatKnockbackHorizontal=0.0 FlatKnockbackVertical=0.0 HitscanRadius=0.3 HitscanVisualRadius=0.3 TaggingDuration=0.0 TaggingMaxFactor=0.9 TaggingHitFactor=0.9 ProjectileTrail=None RecoilCrouchScale=1.0 RecoilADSScale=1.0 PSRCrouchScale=1.0 PSRADSScale=1.0 ProjectileAcceleration=0.0 AccelIncludeVertical=false AimPunchAmount=5.0 AimPunchResetTime=0.15 AimPunchCooldown=0.15 AimPunchHeadshotOnly=true AimPunchCosmeticOnly=true MinimumDecelVelocity=0.0 PSRManualNegation=false PSRAutoReset=true AimPunchUpTime=0.015 AmmoReloadedOnKill=1 CancelReloadOnKill=false FlatKnockbackHorizontalMin=0.0 FlatKnockbackVerticalMin=0.0 ADSScope=No Scope ADSFOVOverride=103.0 ADSFOVScale=Clamped Horizontal ADSAllowUserOverrideFOV=false Explosive=false Radius=500.0 DamageAtCenter=100.0 DamageAtEdge=100.0 SelfDamageMultiplier=0.5 ExplodesOnContactWithEnemy=false DelayAfterEnemyContact=0.0 ExplodesOnContactWithWorld=false DelayAfterWorldContact=0.0 ExplodesOnNextAttack=false DelayAfterSpawn=0.0 BlockedByWorld=false SpreadSSA=1.0,1.0,-1.0,5.0 SpreadSCA=1.0,1.0,-1.0,5.0 SpreadMSA=1.0,1.0,-1.0,5.0 SpreadMCA=1.0,1.0,-1.0,5.0 SpreadSSH=1.0,1.0,0.0,0.0 SpreadSCH=1.0,1.0,0.0,0.0 SpreadMSH=1.0,1.0,2.0,2.0 SpreadMCH=1.0,1.0,2.0,2.0 MaxRecoilUp=25.0 MinRecoilUp=-25.0 MinRecoilHoriz=-25.0 MaxRecoilHoriz=25.0 FirstShotRecoilMult=1.0 RecoilAutoReset=false TimeToRecoilPeak=0.03 TimeToRecoilReset=1.0 AAMode=0 AAPreferClosestPlayer=false AAAlpha=0.05 AAMaxSpeed=1.0 AADeadZone=0.0 AAFOV=30.0 AANeedsLOS=true TrackHorizontal=true TrackVertical=true AABlocksMouse=false AAOffTimer=0.0 AABackOnTimer=0.0 TriggerBotEnabled=false TriggerBotDelay=0.0 TriggerBotFOV=1.0 StickyLock=false HeadLock=false VerticalOffset=0.0 DisableLockOnKill=false UsePerShotRecoil=false PSRLoopStartIndex=0 PSRViewRecoilTracking=0.45 PSRCapUp=9.0 PSRCapRight=4.0 PSRCapLeft=4.0 PSRTimeToPeak=0.175 PSRResetDegreesPerSec=40.0 UsePerBulletSpread=false PBS0=0.0,0.0 [Weapon Profile] Name=ThompsonWeak Type=Hitscan ShotsPerClick=1 DamagePerShot=10.0 KnockbackFactor=9.0 TimeBetweenShots=0.123 Pierces=false Category=FullyAuto BurstShotCount=1 TimeBetweenBursts=0.5 ChargeStartDamage=10.0 ChargeStartVelocity=X=500.000 Y=0.000 Z=0.000 ChargeTimeToAutoRelease=2.0 ChargeTimeToCap=1.0 ChargeMoveSpeedModifier=1.0 MuzzleVelocityMin=X=2000.000 Y=0.000 Z=0.000 MuzzleVelocityMax=X=2000.000 Y=0.000 Z=0.000 InheritOwnerVelocity=0.0 OriginOffset=X=0.000 Y=0.000 Z=0.000 MaxTravelTime=5.0 MaxHitscanRange=100000.0 GravityScale=1.0 HeadshotCapable=true HeadshotMultiplier=2.0 MagazineMax=32 AmmoPerShot=1 ReloadTimeFromEmpty=0.65 ReloadTimeFromPartial=0.65 DamageFalloffStartDistance=100000.0 DamageFalloffStopDistance=100000.0 DamageAtMaxRange=30.0 DelayBeforeShot=0.0 HitscanVisualEffect=Tracer ProjectileGraphic=Ball VisualLifetime=0.05 WallParticleEffect=Flare HitParticleEffect=Blood BounceOffWorld=false BounceFactor=0.5 BounceCount=0 HomingProjectileAcceleration=0.0 ProjectileEnemyHitRadius=1.0 CanAimDownSight=false ADSZoomDelay=0.0 ADSZoomSensFactor=0.7 ADSMoveFactor=1.0 ADSStartDelay=0.0 ShootSoundCooldown=0.08 HitSoundCooldown=0.08 HitscanVisualOffset=X=0.000 Y=0.000 Z=-50.000 ADSBlocksShooting=false ShootingBlocksADS=false KnockbackFactorAir=9.0 RecoilNegatable=false DecalType=1 DecalSize=12.0 DelayAfterShooting=0.0 BeamTracksCrosshair=false AlsoShoot= ADSShoot= StunDuration=0.0 CircularSpread=true SpreadStationaryVelocity=1000000.0 PassiveCharging=false BurstFullyAuto=true FlatKnockbackHorizontal=0.0 FlatKnockbackVertical=0.0 HitscanRadius=0.3 HitscanVisualRadius=0.3 TaggingDuration=0.0 TaggingMaxFactor=0.9 TaggingHitFactor=0.9 ProjectileTrail=None RecoilCrouchScale=1.0 RecoilADSScale=1.0 PSRCrouchScale=1.0 PSRADSScale=1.0 ProjectileAcceleration=0.0 AccelIncludeVertical=false AimPunchAmount=0.1 AimPunchResetTime=0.16 AimPunchCooldown=0.28 AimPunchHeadshotOnly=true AimPunchCosmeticOnly=true MinimumDecelVelocity=0.0 PSRManualNegation=false PSRAutoReset=true AimPunchUpTime=0.1 AmmoReloadedOnKill=1 CancelReloadOnKill=false FlatKnockbackHorizontalMin=0.0 FlatKnockbackVerticalMin=0.0 ADSScope=No Scope ADSFOVOverride=103.0 ADSFOVScale=Clamped Horizontal ADSAllowUserOverrideFOV=false Explosive=false Radius=500.0 DamageAtCenter=100.0 DamageAtEdge=100.0 SelfDamageMultiplier=0.5 ExplodesOnContactWithEnemy=false DelayAfterEnemyContact=0.0 ExplodesOnContactWithWorld=false DelayAfterWorldContact=0.0 ExplodesOnNextAttack=false DelayAfterSpawn=0.0 BlockedByWorld=false SpreadSSA=1.0,1.0,-1.0,5.0 SpreadSCA=1.0,1.0,-1.0,5.0 SpreadMSA=1.0,1.0,-1.0,5.0 SpreadMCA=1.0,1.0,-1.0,5.0 SpreadSSH=1.0,1.0,3.0,3.0 SpreadSCH=1.0,1.0,3.0,3.0 SpreadMSH=1.0,1.0,2.0,2.0 SpreadMCH=1.0,1.0,2.0,2.0 MaxRecoilUp=0.0 MinRecoilUp=0.0 MinRecoilHoriz=0.0 MaxRecoilHoriz=0.0 FirstShotRecoilMult=1.0 RecoilAutoReset=false TimeToRecoilPeak=0.05 TimeToRecoilReset=0.35 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4a6313112109dec72597eeba469aae86a9b53e04
3cbee2296fd6b54f80587eead83813d4c878e06a
/sci2blif/rasp_design_added_blocks/GENARB_f.sce
655115c081465204b1f6a51da64a97db21b59121
[]
no_license
nikhil-soraba/rasp30
872afa4ad0820b8ca3ea4f232c4168193acbd854
936c6438de595f9ac30d5619a887419c5bae2b0f
refs/heads/master
2021-01-12T15:19:09.899590
2016-10-31T03:23:48
2016-10-31T03:23:48
71,756,442
0
0
null
2016-10-24T05:58:57
2016-10-24T05:58:56
null
UTF-8
Scilab
false
false
148
sce
GENARB_f.sce
style.fontSize=14; style.displayedLabel="<b>ARB GEN</b><br>%1$s"; pal6 = xcosPalAddBlock(pal6,"GENARB_f",[],style); //arbitrary waveform generator
0b355826c5eabc62079b5e5670630dedde485a36
ac1f8441b0319b4a391cd5a959bd3bb7988edfa7
/data/news2015/news2015/SplitsNEWS15/EnTa/enta.5.tst
1490755d6b5cfa0a3755a991c18e2155dd31092a
[ "MIT" ]
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SaeedNajafi/transliterator
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a a b r o o ஆ ப ் ர ூ a a g a u r s h o l a ஆ க ் அ வ ு ர ் ஷ ோ ல ா a a h w a a n i t ஆ ஹ ் வ ா ன ி த ் a a k a a s h ஆ க ா ஷ ் a a n a n d i t ஆ ன ந ் த ி த ் a a n a n d m a y e e ஆ ன ந ் த ம ா ய ீ a a r i f ஆ ர ி ஃ ப ் a a s h i k ஆ ஷ ி க ் a a s m a n ஆ ஸ ் ம ன ் a a s m a n ஆ ஸ ் ம ா ன ் a a t i k a h ஆ த ி க ா a a y u s h அ ய ் ஷ ா a b i n s a f h o g a அ ப ் இ ன ் ச ா ஃ ப ் ஹ ோ க ா a b b a s i அ ப ் ப ா ஸ ி a b d u l a l e e m அ ப ் த ு ல ் அ ல ீ ம ் a b d u l k h a b e e r அ ப ் த ு ல ் க ா ப ீ ர ் a b d u l m a n i அ ப ் த ு ல ் ம ன ி a b d u l m u h a a s i n அ ப ் த ு ல ் ம ு ஹ ா ச ி ன ் a b d u l m u h a a y m e e n அ ப ் த ு ல ் ம ு ஹ ா ய ் ம ி ன ் a b d u l m u q s i t அ ப ் த ு ல ் ம ு க ் ச ி த ் a b d u l m u z a n n i அ ப ் த ு ல ் ம ு ஸ ா ன ி a b d u l q a h h a r அ ப ் த ு ல ் க ஹ ் ஹ ர ் a b d u l w a a j i d அ ப ் த ு ல ் வ ா ஜ ி த ் a b d u l l a h அ ப ் த ு ல ் ல ா a b d u r r a z z a k அ ப ் த ு ர ் ர ா ஸ ் ஸ ா க ் a b e y k u r u v i l l a அ ப ே க ு ர ு வ ி ல ் ல ா a b h a y a p r a d அ ப ய ா ப ி ர ா த ் a b h i c h a n d r அ ப ி ச ந ் த ர ் a b h i j i t k a l e அ ப ி ஜ ி த ் க ே ல ் a b h i l a s h a a அ ப ி ல ா ஷ ா a b h i m a n y u s u t அ ப ி ம ன ் ய ூ ச ு த ் a b h i n a t h அ ப ி ன ா த ் a b h i r அ ப ி ஹ ி ர ் a c h a r y a அ ச ா ர ் ய ா a d e l i n e அ ட ெ ல ி ன ் a d i s h v a r அ த ி ஷ ் வ ர ் a d i t y a a அ த ி த ் ய ா a f i f அ ஃ ப ீ ஃ ப ் a g a s t i அ க ஸ ் த ி a g a t o n f o r t அ க ா ட ன ் ஃ ப ் ப ோ ர ் ட ் a g r a r o a d ஆ க ் ர ா ர ோ ட ் a h a g g a r அ ஹ ா க ் க ர ் a h m a d a l - b a d a w i அ ஹ ் ம த ் அ ல ் - ப ா த ா வ ி a h s a n அ ஹ ் ச ா ன ் a i r l i a ஐ ர ் ல ி ய ா a j e e b a h அ ஜ ீ ப ா a k b a r அ க ் ப ர ் a k r o n அ க ் ர ா ன ் a l a அ ல ா a l b e r t g o r e ஆ ல ் ப ர ் ட ் க ோ ர ் a l b u k e r k அ ல ் ப ூ க ெ ர ் க ் a l e x a n d r i a அ ல ெ க ் ஸ ா ன ் ட ி ர ி ய ா a l e x a n d r i a அ ல ெ க ் ஸ ா ன ் த ி ர ி ய ா a l f r e d h i t c h c o c k ஆ ல ் ஃ ப ி ர ட ் ஹ ி ச ் க ா க a l g i e r s அ ல ் ஜ ி ய ர ் ஸ ் a l i m அ ல ி ம ் a l o y s i u s அ ல ோ ய ் ச ி ய ஸ ் a l s a t i a அ ல ் ச ா ஷ ி ய ா a m a h அ ம ா a m a l s i l v a அ ம ல ் ச ி ல ் வ ா a m a l i a அ ம ா ல ி ய ா a m b a l a p u z h a அ ம ் ப ா ல ா ப ு ழ ா a m o l a k அ ம ோ ல க ் a m u r t அ ம ு ர ் த ் a n a a d y a அ ன ட ் ய ா a n a h i t a a அ ன ஹ ி த ் த ா a n a n d b h a v a n ஆ ன ந ் த ் ப வ ன ் a n a n d i n e e ஆ ன ந ் த ி ன ீ a n a n t n a g அ ன ன ் த ் ன ா க ் a n a n y a a அ ன ன ் ய ா a n a r b a l a அ ன ர ் ப ா ல ா a n a t o m y அ ன ா ட ா ம ி a n d a a z அ ந ் த ா ஸ ் a n d h a y u d h அ ந ் த ா ய ு த ் a n d h e r i அ ந ் த ே ர ி a n d i e ஆ ன ் ட ி a n d r e w p u t t i c k ஆ ண ் ட ் ர ூ ப ு ட ் ட ி க ் a n d y l l o y d ஆ ன ் ட ி ல ா ய ் ட ் a n g a r a அ ங ் க ா ர ா a n i l a a t m a j அ ன ி ல ா த ் ம ஜ ் a n j a r அ ஞ ் ச ா ர ் a n k h k a n a s h a அ ன ் க ் க ா ந ஷ ா a n n i g e r i அ ன ் ன ி க ே ர ி a n t a r a a h அ ன ் த ர ா ஹ ் a n t a r n a a d அ ந ் த ர ் ந ா த ் a n u r a d h a a அ ன ு ர ா த ா a o i f e ஐ ஓ ஃ ப ் a o n c e n t r e ஏ வ ோ ன ் ச ெ ன ் ட ர ் a p n i i z z a t அ ப ் ன ி இ ஸ ் ஸ ா த ் a p r a d h i k a u n அ ப ் ர ா த ி க ோ ன ் a r a v அ ர வ ் a r g h e s h w a r a அ ர ் க ே ஷ ் வ ர ா a r s e n i c ஆ ர ் ச ீ ன ி க ் a r s h a d k h a n அ ர ் ஷ த ் க ா ன ் a r y a m a n அ ர ் ய ா ம ா ன ் a s h i s h அ ஷ ீ ஷ ் a s h t p u t r e அ ஷ ் ப ு த ் ர ே a s m i t a அ ஸ ் ம ி த ் த ா a t a b a l அ ட ் ட ா ப ா ல ் a t a l அ ட ் ட ல ் a t i v i s i s h t s e v a m e d a l ஆ த ி வ ி ச ி ஷ ் ட ் ச ே வ ா ம ெ ட ல ் a u s t r o - t u r k i s h w a r ஆ ஸ ் ட ி ர ோ - ட ர ் க ் க ி ஷ ் வ ா ர ் a u t o m o t i v e a x l e ஆ ட ் ட ோ ம ோ ட ி வ ் ஆ க ் ச ி ல ் a z m a t r a n a அ ஸ ் ம த ் ர ா ன ா b a a l a g o p a l ப ா ல க ோ ப ா ல ் b a a l g o p a a l ப ா ல ் க ோ ப ா ல ் b a a n k e b i h a a r i ப ா ங ் க ே ப ி ஹ ா ர ி b a a n k e b i h a r e e ப ா ங ் க ே ப ி ஹ ா ர ி b a a n k e b i h a r i ப ா ங ் க ே ப ி ஹ ா ர ி b a a r a n ப ா ர ன ் b a b l a ப ப ் ல ா b a c h h r a w a n ப ச ் ர ா வ ன ் b a d e g h a r k i b a h u ப ட ே க ர ் க ி ப ா ஹ ு b a d r u d i n ப த ் ர ு த ி ன ் b a h a d u r k i s a n ப ஹ த ு ர ் க ி ச ா ன ் b a h a d u r s i n g h ப ஹ த ூ ர ் ச ி ங ் b a h a m a s ப ஹ ா ம ா ஸ ் b a h a n a ப ஹ ா ன ா b a h l a w a n ப ஹ ல ் வ ா ன ் b a i n s ப ை ன ் ஸ ் b a j a r a n g ப ஜ ் ர ங ் b a l a d i ப ா ல ா ட ி b a l l ப ா ல ் b a l u g a n ப ல ு க ா ன ் b a m b a i k a m a h a r a j a ப ம ் ப ை க ா ம ஹ ர ா ஜ ா b a n k o f p u n j a b ப ே ங ் க ் ஆ ஃ ப ் ப ஞ ் ச ா ப ் b a n k e s a n w a r i a ப ங ் க ே ச ன ் வ ா ர ி ய ா b a n k i m a c h a n d r a ப ங ் க ி ம ் ச ந ் த ி ர ா b a n s a l ப ன ் ச ா ல ் b a p a t l a ப ப ா ட ் ல ா b a r a d a r i ப ா ர த ா ர ி b a r a k a h ப ர ா க ா b a r a r a ப ர ா ர ா b a r a r a ப ா ர ா ர ா b a r a t h ப ர த ் b a r h a r w a j u n c t i o n ப ா ர ் ஹ ா ர ் வ ா ஜ ங ் ஷ ன ் b a r k s ப ா ர ் க ் ஸ ் b a r q i ப ா ர ் க ி b a r s o i j u n c t i o n ப ா ர ் ச ோ ய ் ஜ ங ் ஷ ன ் b a s a v a s a g a r d a m ப ச வ ச ா க ர ் ட ே ம ் b a s i m a h ப ஸ ீ ம ா b a t o o l ப த ூ ல ் b e g u s a r a i ப ே க ு ச ர ா ய ் b e h a n ப ெ ஹ ன ் b e l l s o u t h ப ெ ல ் ச ௌ த ் b e n i t o j u a r e z ப ெ ன ி ட ் ட ோ ஜ ா ர ெ ஸ ் b e r i ப ே ர ி b e r t v a n c e ப ெ ர ் ட ் வ ா ன ் ச ி b e t e l s m a n n ப ீ ட ெ ல ் ஸ ் ம ன ் b e t h l e h e m l u t h e r a n ப ெ த ் ல ஹ ம ் ல ு த ெ ர ன ் b h a a l a c h a n d r ப ா ல ச ந ் த ர ் b h a g i r a t h i ப ா க ி ர த ி b h a g w a n t i ப க வ ந ் த ி b h a g w a t i ப க வ த ி b h a k t i n a g a r ப க ் த ி ந க ர ் b h a m b h r a ப ா ம ் ப ் ர ா b h a r a t a r u n ப ர த ் அ ர ு ண ் b h a r a t k i s a n t a a n ப ா ர த ் க ி ச ந ் த ா ன ் b h a r a t k u p ப ா ர த ் க ு ப ் b h a v a n ப வ ன ் b h a v a n i s a g a r r e s e r v o i r ப வ ா ன ி ச ா க ர ் ர ி ச ர ் வ ா ய ர ் b h a y a n a k ப ய ா ன க ் b h o j i p u r a j u n c t i o n ப ோ ஜ ி ப ூ ர ா ஜ ங ் ஷ ன ் b h o r e ப ோ ர ் b i g a p p l e ப ி க ் ஆ ப ் ப ி ள ் b i g h a p u r ப ி க ா ப ூ ர ் b i j u n c t i o n o r ப ி ஜ ங ் ஷ ன ோ ர ் b i n g c r o s b y ப ி ங ் க ் ர ா ஸ ் ப ி b i r ப ி ர ் b i r ப ீ ர ் b i r a j b a h u ப ி ர ஜ ் ப ா ஹ ு b i s h a n s i n g h b e d i ப ி ஷ ா ன ் ச ி ங ் ப ே ட ி b i s h a r a h ப ி ஷ ா ர ா b l a i r h a r t l a n d ப ி ள ெ ய ் ர ் ஹ ா ர ் ட ் ல ா ண ் ட ் b o l i v i a n o ப ோ ல ி வ ி ய ா ன ோ b o m b a y k i b i l l i ப ா ம ் ப ே க ி ப ி ல ் ல ி b o n g a i g a o n r e f ப ொ ங ் க ை க ா ன ் ர ி ஃ ப ை ன ர ி ஸ ் b o p a r a i ப ோ ப ா ர ை b o r i v a l i ப ோ ர ி வ ா ல ி b o u z o u k i ப ொ ச ௌ க ் க ி b o y f r i e n d ப ா ய ் ஃ ப ி ர ண ் ட ் b r a n d e i s a w a r d ப ் ர ா ண ் ட ீ ஸ ் அ வ ா ர ் ட ் b r a t i n d r a ப ் ர த ீ ந ் த ் ர ா b r a t s k ப ி ர த ் ஸ ் க ் b r i d g e ப ி ர ி ட ் ஜ ் b r i d g e p o r t c h r i s t i a n ப ி ர ி ட ் ஜ ் ப ோ ர ் ட ் க ி ற ி ஸ ் ட ி ய ன ் b r o o k e w a l k e r ப ு ர ூ க ் வ ா க ் க ர ் b r u c k l a y ப ி ர க ் ல ே b u r a j ப ு ர ா ஜ ் b u r h a r ப ு ர ் ஹ ா ர ் c a h o r a b a s s a d a m க ஹ ோ ர ா ப ஸ ் ஸ ா ட ே ம ் c a i r b r e க ை ர ் ப ் ர ் c a i r o க ை ர ோ c a i t l i n க ை ட ் ல ி ன ் c a l l i e க ா ல ீ c a l l i o p e க ா ல ி ய ோ ப ் c a l v i n க ா ல ் வ ி ன ் c a n a d i a n p o e t s a w a r d க ன ட ி ய ன ் ப ொ ய ட ் ஸ ் அ வ ா ர ் ட ் c a n t e r b u r y c h r i s t c h u r c h u n i v e r s i t y c o l l e g e க ே ண ் ட ர ் ப ர ி க ் ற ை ஸ ் ட ் ச ர ் ச ் ய ூ ன ி வ ர ் ச ி ட ் ட ி க ா ல ே ஜ ் c a r a v a n க ே ர வ ன ் c a r r i e r a i r c o n க ே ர ி ய ர ் ஏ ர ் க ா ன ் c a r v e r க ா ர ் வ ெ ர ் c a s t l e r o c k க ே ஸ ் ட ி ல ் ர ா க ் c a t h e r i n e z e t a - j o n e s க ே த ் த ர ி ன ் ஜ ே ட ் ட ா ஜ ோ ன ் ஸ ் c a u l f i e l d c u p க ா ல ் ஃ ப ீ ல ் ட ் க ப ் c e l e b r a t i o n c o m m u n i t y ச ெ ல ி ப ி ர ே ஷ ன ் க ம ் ய ு ன ி ட ் ட ி c e r i s e ச ெ ர ை ஸ ் c e r r o d e g a r n i c a க ெ ர ் ர ோ ட ீ க ா ர ் ன ி க ா c h a k d a y a l a ச க ் த ய ா ள ா c h a l t e c h a l t e ச ல ் த ே ச ல ் த ே c h a m p a n e r r o a d j u n c t i o n ச ம ் ப ன ே ர ் ர ோ ட ் ஜ ங ் ஷ ன ் c h a n d i a r o a d ச ண ் ட ி ய ா ர ோ ட ் c h a n d p u r ச ந ் த ் ப ூ ர ் c h a n d r a b h a a n ச ந ் த ி ர ப ா ன ் c h a n d u ச ா ந ் த ு c h a n g e z k h a n ச ெ ங ் க ி ஸ ் க ா ன ் c h a n g e z k h a n ச ே ஞ ் ச ஸ ் க ா ன ் c h a r a n d a s ச ர ண ் த ா ஸ ் c h a r l i e c h a p l i n ச ா ர ் ல ி ச ா ப ் ள ி ன ் c h a r u m a t i ச ா ர ு ம த ி c h a t t a n s i n g h ச த ் த ன ் ச ி ங ் c h a w a p a l l ச வ ா ப ா ல ் c h e t a n c h a u h a n ச ே ட ் ட ன ் ச வ ் ஹ ா ன ் c h h i n a ச ி ன ் ன ா c h h i p a d o h a r ச ி ப ் ப ட ோ ஹ ர ் c h h o t a b h a i ச ோ ட ் ட ா ப ா ய ் c h i n i j a d u g a r ச ி ன ி ஜ ா த ு க ர ் c h i n m a y a n a n d a ச ி ன ் ம ை ய ா ன ந ் த ா c h i r a a g h ச ி ர ா க ் c h i t t a p u r ச ி த ் த ா ப ூ ர ் c h l o r i n e க ் ல ோ ர ி ன ் c h o r p e m o r ச ோ ர ் ப ே ம ோ ர ் c h o r v a d r o a d ச ோ ர ் வ ா ட ் ர ோ ட ் c h o u d h a r y ச ெ ள த ர ி c h r i s k u g g e l e i j n க ி ர ி ஸ ் க ு ஜ ் ஜ ெ ல ே ஜ ் ன ் c h r i s m a r t i n க ி ர ி ஸ ் ம ா ர ் ட ் ட ி ன ் c h u n a u t i ச ு ன ௌ த ி c i r o ச ி ர ொ c i t a d e l l e f o r t ச ி ட ் ட ா ட ெ ல ் ஃ ப ் ப ோ ர ் ட ் c l a r a க ி ள ா ர ா c l a r i c e க ி ள ா ர ி ஸ ் c l e a v a n t க ி ள ீ வ ண ் ட ் c l i f t o n s u s p e n s i o n க ி ள ி ப ் ட ன ் ச ஸ ் ப ெ ன ் ஷ ன ் c o l i n க ோ ல ி ன ் c o l i n c r o f t க ா ல ி ன ் க ் ர ா ஃ ப ் ட ் c o m m u n i t y o f c h r i s t i n t e r n a t i o n a l p e a c e a w a r d க ம ் ய ூ ன ி ட ் ட ி ஆ ஃ ப ் க ் ற ை ஸ ் ட ் இ ண ் ட ர ் ந ே ஷ ன ல ் ப ீ ஸ ் அ வ ா ர ் ட ் c o m p a s s g r o u p க ா ம ் ப ஸ ் க ு ர ூ ப ் c o n d o l e e z a r i c e க ா ண ் ட ோ ல ீ ச ா ர ை ஸ ் c o n l e y க ோ ன ் ல ி c o n s o l i d a t e d w a t e r க ன ் ச ா ல ி ட ே ட ் ட ட ் வ ா ட ் ட ர ் c o n s t e l l a t i o n e n e r g y க ா ன ் ஸ ் ட ெ ல ் ல ே ஷ ் ன ் எ ன ர ் ஜ ி c o r d e l i a க ா ர ் ட ெ ல ி ய ா c o r l i s s க ோ ல ி ஸ ் c r i s p i n க ி ர ி ஸ ் ப ி ன ் c r o s s r o a d s c h r i s t i a n c e n t e r க ி ர ா ஸ ் ர ோ ட ் ஸ ் க ி ற ி ஸ ் ட ி ய ன ் ச ெ ன ் ட ர ் c r o w n h i l l f o r t க ் ர வ ு ன ் ஹ ி ல ் ஃ ப ் ப ோ ர ் ட ் d a b h o l k a r த ப ோ ல ் க ர ் d a d r i த ா த ் ர ி d a f i y a h ட ா ஃ ப ி ய ா d a i n i k s o n a r c a c h a r ட ை ன ி க ் ச ோ ன ா ர ் க ா ச ா ர ் d a l a d i த ல ா ட ி d a l i g a n j த ா ல ி க ஞ ் ச ் d a l m i a c e m e n t ட ா ல ் ம ி ய ா ச ி ம ெ ண ் ட ் d a l t o n ட ா ல ் ட ன ் d a n k a ட ன ் க ா d a r a a r த ர ா ர ் d a r b a r ட ர ் ப ா ர ் d a r i u s ட ே ர ி ய ஸ ் d a s h a v t a r த ஷ ா வ ் த ா ர ் d a t i a ட ா த ி ய ா d a t i a த ா ட ் ட ி ய ா d e n i o s s t o r a p r i s ட ி ந ி ய ா ஸ ் ஸ ் ட ோ ர ா ப ் ர ி ஸ ் d e a n ட ீ ன ் d e b a s h i s h ட ெ ப ா ஷ ி ஷ ் d e b r a w i n g e r ட ெ ப ் ர ா வ ி ங ் க ர ் d e e p a k f e r t த ீ ப க ் ஃ ப ெ ர ் ட ் d e e p t a n s h u த ீ ப ் த ா ன ் ஷ ு d e e p t i த ீ ப ் த ி d e e w a n j e e த ீ வ ா ன ் ஜ ீ d e h r i o n s o n e ட ெ ஹ ் ர ி ஆ ன ் ச ோ ன ே d e k a l b - p e a c h t r e e ட ெ க ் க ல ் ப ் - ப ீ ச ் ட ் ர ீ d e k h i t e r i b a m b a i த ே க ் க ி த ே ர ி ப ம ் ப ா ய ் d e l l a ட ெ ல ் ல ா d e l r a n f i r s t u n i t e d m e t h o d i s t த ெ ல ் ர ன ் ஃ ப ர ் ஸ ் ட ் ய ு ன ை ட ெ ட ் ம ெ த ோ ட ி ஸ ் ட ் d e m e t r i a ட ெ ம ே ட ் ர ி ய ா d e n e s h r a m d i n த ி ன ே ஷ ் ர ா ம ் த ி ன ் d e n n i s k u c i n i c h ட ெ ன ் ன ி ஸ ் க ு ச ் ச ி ன ி க ் d e s a r i த ே ச ர ி d e s h p a n d e த ே ஷ ் ப ா ண ் ட ே d e t r o j த ே ட ் ர ோ ஜ ் d e v i n d e r p a l த ே வ ி ந ் த ர ் ப ா ல ் d h a l a i த ா ல ை d h a l l த ா ல ் d h a n a r i த ன ா ர ி d h a r m p a t n i த ர ் ம ப த ் ன ி d h a r m a b a d த ர ் ம ா ப ா த ் d h a r s h a n a g a m a g e த ர ் ஷ ன ா க ம க ே d h e e r a த ீ ர ா d h e m a j i த ே ம ா ஜ ி d h o d a k h e d i த ோ ட ா க ே த ி d h o l a m a z r a த ோ ல ா ம ஸ ் ர ா d h u m r த ு ம ் ர ு d i g b o i ட ி க ் ப ோ ய ் d i p l a n a த ி ப ் ல ா ன ா d i w a n k h a v a t i த ி வ ா ன ் க ா வ த ி d o m a s t a n e த ோ ம ஸ ் த ா ன ே d o h a r a ட ோ ஹ ா ர ா d o m i n i c a n m e r e n g u e ட ா ம ி ன ி க ் க ன ் ம ெ ர ெ ன ் க ் d o n a l d r u m s f e l d ட ொ ன ா ல ் ட ் ர ம ் ஸ ் ஃ ப ெ ல ் ட ் d o o s r a a a d m i த ூ ஸ ் ர ா ஆ த ் ம ி d o u g w a l t e r s ட வ ு க ் வ ா ல ் ட ் ட ர ் ஸ ் d o z a k h த ோ ஸ ா க ் d r a g o ட ் ர ா க ோ d r e a m a ட ் ர ீ ம ா d u b i a த ு ப ி ய ா d u d h a n i ட ு த ா ன ி d u k e ட ி ய ூ க ் d u k e ட ் ய ூ க ் e a s a u ஈ ச ா e a s t s i b e r i a n ஈ ஸ ் ட ் ச ை ப ீ ர ி ய ன ் e d d a எ ட ் ட ா e e n a d u ஈ ய ன ா ட ு e e n t k a j a w a b p a t t h a r ஈ ன ் ட ் க ா ஜ வ ா ப ் ப த ா ர ் e i l e e n ஐ ல ீ ன ் e k a d h u r i k a h a n i ஏ க ் அ த ு ர ி க ஹ ா ன ி e k a u r s a n g r a m ஏ க ் ஔ ர ் ச ங ் ர ம ் e k t h a l a d k a ஏ க ் த ா ல ட ் க ா e k a c h a k r a எ க ா ச க ் ர ா e k a k s h எ க ா க ் ஷ ் e l p o t o s i எ ல ் ப ொ ட ோ ஸ ி e l - m a r e e s எ ல ் - ம ா ர ீ ஸ ் e l a i n e எ ல ை ன ி e l d o n எ ல ் ட ோ ன ் e l d o r a d o எ ல ் ட ோ ர ா ட ோ e l e c t r i c i t e d e f r a n c e எ ல க ் ட ி ர ி ச ி ட ் ட ி ட ி ஃ ப ி ர ா ன ் ஸ ் e l i o t எ ல ி ய ட ் e l k h o r n எ ல ் க ் ஹ ா ர ் ன ் e l v i n எ ல ் வ ி ன ் e m e r s o n e l e c t r i c எ ம ெ ர ் ச ெ ன ் எ ல க ் ட ி ர ி க ் e m m l y எ ம ் ல ி e m m y a w a r d எ ம ் ம ி அ வ ா ர ் ட ் e n r i c o எ ன ் ர ி க ் க ோ e r i c u p a s h a n t h a எ ர ி க ் உ ப ஷ ா ந ் த ா e s s a m எ ஸ ் ஸ ா ம ் e u l a l i e இ ய ு ல ல ி e v e r e a d y i n d எ வ ர ெ ட ி இ ண ் ட ் e v e r t o n m a t t i s எ வ ர ் ட ன ் ம ா ட ் ட ி ஸ ் e x e l o n எ க ் ஸ ் ல ா ன ் f a b r i z i o ஃ ப ா ப ் ர ி ஸ ி ய ோ f a o u d b a c c h u s ஃ ப வ ு த ் ப ா க ் க ஸ ் f a t e h p u r ஃ ப த ே ப ூ ர ் f a t e h p u r ஃ ப த ே ப ் ப ூ ர ் f a t e h p u r ப த ே ப ூ ர ் f a t e h p u r ப த ே ப ் ப ூ ர ் f e e r o z a h ஃ ப ெ ர ூ ஜ ா f e l e t i ஃ ப ெ ல ே ட ி f i o r e n z a ஃ ப ி ய ோ ர ெ ன ் ச ா f i r d a u s ஃ ப ி ர ் த ௌ ஸ ் f l o r i n a m u s e u m o f m o d e r n a r t ஃ ப ் ப ி ள ோ ர ி ன ா ம ி ய ூ ஸ ி ய ம ் ஆ ஃ ப ் ம ா ட ர ் ன ் ஆ ர ் ட ் f o o l ஃ ப ூ ல ் f o r t b l i s s ஃ ப ் ப ோ ர ் ட ் ப ி ல ி ஸ ் f o r t c a r r o l l ஃ ப ் ப ோ ர ் ட ் க ே ர ோ ல ் f o r t g o r g e s ஃ ப ் ப ோ ர ் ட ் ஜ ா ர ் ஜ ஸ ் f o r t l e o n a r d o ஃ ப ் ப ோ ர ் ட ் ல ி ய ோ ன ா ர ் ட ோ f o r t m a l b o r o u g h ஃ ப ் ப ோ ர ் ட ் ம ா ல ் ப ோ ர ா க ் f o r t u i t e r m e e r ஃ ப ் ப ோ ர ் ட ் உ ய ் த ெ ர ் ம ீ ர ் f o r t w i d l e y ஃ ப ் ப ோ ர ் ட ் வ ி ட ் ல ே f r a n c i s f o r d c o p p o l a ஃ ப ் ர ா ன ் ச ி ஸ ் ஃ ப ோ ர ் ட ் க ொ ப ் ப ோ ல ா f r e s n o a r t m u s e u m ஃ ப ் ப ி ர ெ ஸ ் ன ோ ஆ ர ் ட ் ம ி ய ூ ஸ ி ய ம ் f r i d h e m l u t h e r a n ஃ ப ி ர ி த ெ ம ் ல ு த ெ ர ன ் f r i t z ஃ ப ் ர ி ட ் ஸ ் f u j i ஃ ப ் ப ு ஜ ி f u n d y ஃ ப ண ் ட ி f u n d y ஃ ப ன ் ட ி g a d u l k a க ட ு ல ் க ா g a j r e க ஜ ் ர ே g a r h m u k t e s a r க ா ர ் ம ு க ் த ே ச ர ் g a r n e t க ா ர ் ன ெ ட ் g a r o t க ா ர ோ ட ் g a r y c r o c k e r க ே ர ி க ் ர ா க ் க ர ் g a t a n a r e s e r v o i r க ட ன ா ட ே ம ் g a u r i k a க ெ ள ர ி க ் க ா g a y d a க ய ் ட ா g e e t a b h a v a n க ீ த ா ப வ ன ் g e e t a k i s a u g a n d h க ீ த ா க ி ச ௌ க ந ் த ் g e e t a m e r a n a a m க ீ த ா ம ே ர ா ந ா ம ் g e l l e r t ஜ ெ ல ் ல ர ் ட ் g e m i n i a w a r d ஜ ெ ம ி ன ி அ வ ா ர ் ட ் g e n e r a l j o h n s t r o n g m u s e u m ஜ ெ ன ர ல ் ஜ ா ன ் ஸ ் ட ி ர ா ங ் ம ி ய ூ ஸ ி ய ம ் g e o r g e l u c a s ஜ ா ர ் ஜ ் ல ூ க ா ஸ ் g e o r g e v a n b i e s b r o e c k p r i z e ஜ ா ர ் ஜ ் வ ா ன ் ப ீ ஸ ் ப ் ர ோ ய க ் ப ் ர ை ஸ ் g e r a l d l a m p e r t a w a r d ஜ ெ ர ா ல ் ட ் ல ே ம ் ப ர ் ட ் அ வ ா ர ் ட ் g h i y a t h க ி ய ா த ் g h o l a m n o u s h e r க ோ ல ா ம ் ந வ ் ஷ ர ் g h u l a m p a r k a r க ு ல ா ம ் ப ர ் க ர ் g h u s u n க ு ச ு ன ் g h u t a y f க ு ட ே ஃ ப ் g h u z a y y a h க ு ஸ ா ய ா g i d d h க ி த ் g i o v a n n a ஜ ி ய ோ வ ி ன ா g i r a n க ி ர ன ் g i r d h a r g o p a l k i m i r a க ி ர ் த ா ர ் க ோ ப ா ல ் க ி ம ி ர ா g i r l s s c h o o l க ே ர ் ள ் ஸ ் ஸ ் க ூ ல ் g i r w a r க ி ர ் வ ா ர ் g i s e l a க ி ச ே ல ா g l a d t i d i n g s க ி ள ா ட ் ட ை ட ி ங ் ஸ ் g l i d e க ி ல ை ட ் g o d a a க ோ ட ் ட ா g o d f r e y p h i l l i p s க ா ட ஃ ப ் ர ே ஃ ப ி ல ி ப ் ப ் ஸ ் g o l d e n r o s e o f m o n t r e u x க ோ ல ் ட ன ் ர ோ ஸ ் ஆ ஃ ப ் ம ா ண ் ட ் ர ி ய க ் ஸ ் g o l i a t h க ோ ல ி ய ா த ் g o p a க ோ ப ா g o v i l k a r க ோ வ ி ல ் க ர ் g r a n c a n a r i a க ி ர ா ன ் க ன ர ி ய ா g r e y c u p க ் ர ே க ப ் g r i n d w e l l n o r t o க ் ர ை ண ் ட ் வ ெ ல ் ந ா ர ் ட ோ g u a r d i a n a w a r d க ா ர ் ட ி ய ன ் அ வ ா ர ் ட ் g u a t e m a l a c i t y க ட ம ல ா ச ி ட ் ட ி g u l a b க ு ல ா ப ் g u r b h a g a t க ு ர ் ப ா க ா த ் g u r t e j க ு ர ் த ே ஜ ் g u r u d a s p u r க ு ர ு த ா ஸ ் ப ூ ர ் g u r u d w a r a g u r u k a l a h o r e க ு ர ு த ் வ ா ர ா க ு ர ு க ா ல ா ஹ ோ ர ் g u r u d w a r a t i b b i s a h i b க ு ர ு த ் வ ா ர ா ட ி ப ் ப ி ச ா ஹ ி ப ் g y a n d a ஞ ா ன ந ் த ா h a d r a t s u f i s a l i k p o r e d a i i l l u l k h a i r ஹ த ் ர ா த ் ச ு ஃ ப ் ப ி ப ோ ர ் த ை இ ல ு ல ் க ை ர ் h a j a r ஹ ஜ ர ் h a l a l k i k a m a i ஹ ல ா ல ் க ி க ம ா ய ் h a m d a r d ஹ ம ் த ா ர ் த ் h a m m a a d ஹ ம ் ம ா த ் h a r b h a j a n s i n g h ஹ ர ் ப ஜ ன ் ச ி ங ் h a r i d a r s h a n ஹ ர ி த ர ் ஷ ன ் h a r s h e ஹ ர ் ஷ ே h a s e e n o k a d e v t a ஹ ச ீ ன ோ க ா த ே வ ் த ா h a s h a n t i l l a k a r a t n e ஹ ஷ ன ் த ி ல க ர த ் ன ே h a y a a t ஹ ய ா த ் h a y r a h ஹ ை ர ா h a y t h a m ஹ ய ் த ம ் h a y y a n ஹ ய ் ய ன ் h e e r a a l a a l ஹ ீ ர ா ல ா ல ் h e l l g a t e r a i l r o a d ஹ ெ ல ் க ே ட ் ர ே ய ி ல ் ர ோ ட ் h e n a ஹ ெ ன ா h e n r i ஹ ெ ன ் ர ி h e n r y f o r d ஹ ெ ன ் ர ி ஃ ப ோ ர ் ட ் h e r n e d e n ஹ ெ ர ் ன ெ ட ன ் h e r o m o t o r s ஹ ீ ர ோ ம ோ ட ் ட ா ர ் ஸ ் h i m ஹ ி ம ் h i m a l a y ஹ ி ம ா ல ய ் h i n d a h ஹ ி ந ் த ா h i n d u s t a a n e e ஹ ி ந ் த ு ஸ ் த ா ன ீ h o m e r ஹ ோ ம ர ் h o n o r a r y c i t i z e n o f t h e u n i t e d s t a t e s ஹ ா ன ர ர ி ச ி ட ் ட ி ச ன ் ஆ ஃ ப ் த ி ய ு ன ை ட ெ ட ் ஸ ் ட ே ட ் ஸ ் h o w a r d h u g h e s ஹ ோ வ ர ் ட ் ஹ க ் ஸ ் h u a s a v e r a ஹ ு வ ா ச வ ே ர ா h u b b a r d m e d a l ஹ ப ் ப ர ் ட ் ம ெ ட ல ் h u m d o d a k u ஹ ம ் த ோ த ா க ் க ு h u m a m ஹ ு ம ம ் h u s n e e ஹ ு ஸ ் ன ீ i a n s m i t h ஐ ய ன ் ஸ ் ம ி த ் i b i z a இ ப ி ஸ ா i d a n a ஐ ட ா ன ா i d i a m i n இ ட ி அ ம ி ன ் i n a y a t k h a n இ ன ா ய ா த ் க ா ன ் i n d i a n o i l இ ந ் த ி ய ன ் ஆ ய ி ல ் i n d i u m இ ன ் ட ி ய ம ் i n d u b h u s h a n இ ந ் த ு ப ூ ஷ ன ் i n f l e x i b l e இ ன ் ஃ ப ி ள ெ க ் ஸ ி ப ி ள ் i n i g o இ ன ி க ோ i n t e r c o n t i n e n t a l c u p இ ண ் ட ர ் க ா ண ் ட ி ன ண ் ட ல ் க ப ் i n v i n c i b l e இ ன ் வ ி ன ் ச ி ப ி ள ் i q b a l s i k a n d e r இ க ் ப ா ல ் ச ி க ் க ந ் த ர ் i r f a n இ ர ் ஃ ப ா ன ் i r i a இ ர ி ய ா i s p a a r y a u s p a a r இ ஸ ் ப ா ர ் ய ா உ ஸ ் ப ா ர ் i s t a k h r i இ ஸ ் த ா க ் ர ி i v i e ஐ வ ி j a b a l p u r ஜ ப ல ் ப ூ ர ் j a c q u e s ஜ ா க ் ஸ ் j a g a d e e p ஜ க த ீ ப ் j a h a n a r a ஜ ஹ ன ா ர ா j a h e e l ஜ ஹ ீ ல ் j a i m a h a l a x m i ஜ ெ ய ் ம க ா ல க ் ஷ ் ம ி j a i p r a k a s h a s s o ஜ ெ ய ் ப ி ர க ா ஷ ் அ ச ோ j a l e e l ஜ ல ீ ல ் j a l g a o n ஜ ல ் க ா வ ூ ன ் j a n a k i ஜ ா ன க ி j a n e t r i n o ஜ ா ன ட ் ர ி ன ோ j a v a g a l s r i n a t h ஜ வ ா க ல ் ஷ ் ர ி ன ா த ் j a w d a n ஜ வ த ா ன ் j a z b a a t ஜ ஸ ் ப ா த ் j e e t ஜ ீ த ் j e e v a n p r a b h a t ஜ ீ வ ன ் ப ி ர ப ா த ் j e e v a n a ஜ ீ வ ன ா j e f f e r s o n ஜ ெ ஃ ப ர ் ச ன ் j e f f e r s o n ஜ ெ ஃ ப ர ் ஸ ன ் j e t h a n i ஜ ெ த ா ன ி j e w e l ஜ ு வ ல ் j e w e l t h i e f ஜ ு வ ெ ல ் த ீ ஃ ப ் j h a m b a a r i ஜ ா ம ் ப ா ர ி j h i n u k ஜ ீ ன க ் j i h a n ஜ ி ஹ ா ன ் j o a n b a z e ஜ ோ ன ் ப ே ஸ ் j o h n t a s h ஜ ா ன ் ட ா ஷ ் j o k e r ஜ ோ க ் க ர ் j u m a ' ஜ ு ம ா j u n g l e l o v e ஜ ங ் க ி ள ் ல வ ் j u n g l e e ஜ ங ் ல ீ j u s t i n l a n g e r ஜ ஸ ் ட ி ன ் ல ா ங ் க ெ ர ் j u t h a m a h ஜ ு த ா ம ா j w a l a ஜ ் வ ா ல ா k a c h c h i k a l i க ச ் ச ி க ா ள ி k a h m a க ா ஹ ் ம ா k a l i r a a t க ா ள ி ர ா த ் k a l i p a d a க ா ல ி ப ட ா k a m a k s h i a m m a n க ா ம ா ட ் ச ி அ ம ் ம ன ் k a m y a b க ம ் ய ா ப ் k a n a k க ன க ் k a n g a n க ன ் க ன ் k a n n a n u r க ன ் ன ன ூ ர ் k a n o o n k i a w a a z க ா ன ூ ன ் க ி ஆ வ ா ஸ ் k a r b h a l a க ர ் ப ா ல ா k a r l s b o r g f o r t r e s s க ா ர ் ல ் ஸ ் ப ோ ர ் க ் ஃ ப ் ப ோ ர ் ட ் ர ெ ஸ ் k a r u n a க ர ு ண ா k a t h m a n d u க ா த ் ம ண ் ட ு k a u n h a i w o h க ோ ன ் ஹ ை வ ோ k a u n ? k a i s e y ? க ோ ன ் ? க ெ ய ் ச ே ? k a u s a r க ெ ள ஸ ா ர ் k a v i t a க வ ி த ா k a w a b a t a y a s u n a r i p r i z e க வ ப ா ட ் ட ா ய ா ச ு ன ா ர ி ப ் ர ை ஸ ் k e i r a க ே ய ் ர ா k e i t h a க ே ய ் த ா k e n n i c e க ெ ன ் ன ி ஸ ் k e p l e r w e s s e l s க ெ ப ் ல ர ் வ ெ ச ல ் ஸ ் k e p l e r w e s s e l s க ெ ப ் ல ர ் வ ெ ஸ ் ஸ ல ் ஸ ் k e r a க ே ர ா k e t c h u m க ெ ட ் ச ம ் k h a n d e s h க ந ் த ே ஷ ் k h u b g a o n k a r க ு ப ் க ோ ன ் க ர ் k h u s h a l க ு ஷ ா ல ் k h u s h b o o க ு ஷ ் ப ு k i n e t i c க ை ன ட ி க ் k i n e t i c க ை ன ட ் ட ி க ் k i r k a n க ி ர ் க ா ன ் k i r l o s k a r b r o s க ி ர ் ல ோ ஸ ் க ர ் ப ் ர த ர ் ஸ ் k i s m a t க ி ஸ ் ம த ் k i s m a t k a s i t a r a க ி ஸ ் ம த ் க ா ச ி த ா ர ா k m a r t h o l d i n g க ே ம ா ர ் ட ் ஹ ோ ல ் ட ி ங ் k o c h h a r க ோ ச ் ச ா ர ் k o r u n a க ோ ர ு ன ா k o s s u t h p r i z e க ொ ஸ ூ த ் ப ் ர ை ஸ ் k o y n a க ொ ய ் ன ா k r u p k a v i n a y e k a a r க ற ் ப க வ ி ந ா ய க ர ் k u b e r a s i n h க ு ப ர ா ச ி ன ் ஹ ் k u m a r க ு ம ா ர ் k u n a l க ு ன ா ல ் k u n t i க ு ன ் ட ் ட ி l a d k i ல ா ட ் க ி l a h u k e d o r a n g ல ா ஹ ூ க ே ட ோ ர ா ங ் l a i q ல ை க ் l a m b a d a ல ம ் ப ா ட ா l a t h r o p ல த ் ர ோ ப ் l a y y a h ல ய ் ய ா l e e g e r m o n ல ீ ஜ ெ ர ் ம ன ் l e n c o i s m a r a n h e n s e s ல ெ ன ் க ா ய ் ஸ ் ம ா ர ன ் ஹ ெ ன ் ச ஸ ் l e p a n t o ல ெ ப ா ன ் ட ோ l e u s e u r ல ி ய ூ ஸ ு ர ் l e x i n e ல ெ க ் ஸ ி ன ் l i b r a r y o f c o n g r e s s l i v i n g l e g e n d ல ை ப ் ர ர ி ஆ ஃ ப ் க ா ங ் க ி ர ஸ ் ல ி வ ி ங ் ல ெ ஜ ண ் ட ் l i l l i ல ி ல ் ல ி l i n d y h o p ல ி ன ் ட ி ஹ ா ப ் l i v e r p o o l j o h n m o o r e s u n i v e r s i t y ல ி வ ர ் ப ூ ல ் ஜ ா ன ் ம ூ ர ் ஸ ் ய ூ ன ி வ ர ் ச ி ட ் ட ி l o n d o n c i t y ல ண ் ட ன ் ச ி ட ் ட ி l o r i m e r ல ோ ர ி ம ர ் l o u i s e ல ு ய ி ஸ ் l o v e a n d m u r d e r ல வ ் அ ண ் ட ் ம ர ் ட ர ் l u l u a h ல ு ல ு வ ா l u b a n a ல ு ப ா ன ா l u c i a ல ு ச ி ய ா l u c k y n u m b e r ல க ் க ி ந ம ் ப ர ் ஸ ் l u t e r a ல ு ட ே ர ா m a f o i ம ா ஃ ப ோ ய ் m a a y a a r a a m ம ா ய ா ர ா ம ் m a c a r i a ம க ா ர ி ய ா m a c h h a l ம ா ச ் ஹ ா ல ் m a d a n a p a a l ம த ன ப ா ல ் m a d h u c h a n d a ம த ு ச ந ் த ா m a d r a s ம ெ ட ் ர ா ஸ ் m a g n a r ம க ் ன ர ் m a g n a r ம ே க ் ன ா ர ் m a h a a r a a j a a ம ஹ ா ர ா ஜ ா m a h a a v a t ம ஹ ா வ த ் m a h a l i a ம ஹ ா ல ி ய ா m a h i n d r a a n d m a h i n d r a ம ஹ ி ந ் த ் ர ா அ ண ் ட ் ம ஹ ி ந ் த ் ர ா m a h i n d r a u n i t e d w o r l d c o l l e g e o f i n d i a ம ஹ ி ந ் த ் ர ா ய ு ன ை ட ெ ட ் வ ோ ர ் ல ் ட ் க ா ல ே ஜ ் ஆ ஃ ப ் இ ண ் ட ி ய ா m a i d a ம ே ட ா m a i k ம ை க ் m a i n s u h a g a n h o o n ம ே ன ் ச ு ஹ ா க ா ன ் ஹ ூ ன ் m a l a i m a l a r ம ா ல ை ம ல ர ் m a l l r o a d ம ா ல ் ர ோ ட ் m a n c h e s t e r m e t r o p o l i t a n u n i v e r s i t y ம ே ன ் ச ெ ஸ ் ட ர ் ம ெ ட ் ர ோ ப ா ல ி ட ் ட ன ் ய ூ ன ி வ ர ் ச ி ட ் ட ி m a n d a p e ம ன ் ட ப ே m a n d u ம ா ன ் ட ு m a n g a t ம ங ் க த ் m a n g u d a d a ம ங ் க ு த ா த ா m a n i m u k t h a n a d h i r e s e r v o i r ம ண ி ம ு க ் த ா ந த ி ர ி ச ர ் வ ா ய ர ் m a n j i a w a l i ம ன ் ஜ ி ய ா வ ா ல ி m a n j u r a l i s l a m r a n a ம ன ் ஜ ு ர ல ் இ ஸ ் ல ா ம ் ர ா ன ா m a n m o u j i ம ன ் ம ோ ஜ ி m a n n i n g ம ா ன ி ங ் m a n s u k h ம ன ் ச ு க ் m a n z i l e n a u r b h i h a i n ம ன ் ஸ ி ல ெ ன ் அ வ ு ர ் ப ி ஹ ை ன ் m a n z o o r ம ன ் ச ூ ர ் m a n z o o r ம ன ் ஸ ூ ர ் m a r a t h o n ம ர ா த ா ன ் m a r a t h o n ம ா ர த ் த ா ன ் m a r l a ம ா ர ் ல ா m a r s h i l l ம ா ர ் ஸ ் ஹ ி ல ் m a r t i n e ம ா ர ் ட ் ட ி ன ் m a r u b e n i ம ா ர ு ப ெ ன ி m a r v ம ர ் வ ் m a r v e l a ம ா ர ் வ ே ல ா m a r y u m ம ர ் ய ூ ம ் m a s a r r a t ம ச ர த ் m a s h o o q a ம ா ஷ ூ க ா m a s s i m o ம ஸ ் ஸ ி ம ோ m a t i l d e ம ட ் ட ி ல ் ட ே m a t w a l e ம ா த ் வ ா ல ெ m a v e ம வ ே m a w a n a s u g a r ம வ ா ன ா ச ு க ர ் m a x i m a ம ா க ் ஸ ி ம ா m a z d a m o t o r ம ா ஸ ் த ம ோ ட ் ட ா ர ் m e d c o h e a l t h s o l u t i o n s ம ெ ட ் க ோ ஹ ெ ல ் த ் ச ல ் ய ூ ஷ ன ் ஸ ் m e d n i p u r ம ெ த ் ன ி ப ூ ர ் m e d z h y b i z h ம ெ ட ் ஸ ி ப ி ஸ ் m e g a n ம ே க ன ் m e i t n e r i u m ம ெ ய ் ட ் ன ெ ர ி ய ம ் m e n a r a m a y b a n k ம ே ன ர ா ம ே ப ே ங ் க ் m e n t o ம ெ ன ் ட ோ m e r a q a s o o r k y a h a i ம ே ர ா க ஸ ூ ர ் க ி ய ா ஹ ை m e r e a r m a n m e r e s a p n e ம ே ர ெ அ ர ் ம ா ன ் ம ே ர ா ஸ ப ் ன ே m e r e b h a g w a n ம ே ர ெ ப ா க ் வ ா ன ் m e r i a w a a z s u n o ம ே ர ி ஆ வ ா ஸ ் ச ு ன ோ m e r i i z z a t b a c h a o ம ே ர ி இ ஸ ் ஸ ா த ் ப ச ் ச ா ஓ m e r i l a l k a a r ம ே ர ி ல ா ல ் க ர ் m e r r i m a c k ம ெ ர ் ர ி ம ா க ் m i c k ம ி க ் m i c k ம ை க ் m i l a m b e t h a n y b a p t i s t ம ி ல ம ் ப ெ த ன ி ப ே ப ் ட ி ஸ ் ட ் m i l l i c e n t ம ி ல ் ல ி ச ெ ண ் ட ் m i m i ம ி ம ி m i s s g o o d n i g h t ம ி ஸ ் க ு ட ் ந ை ட ் m i s s i n d i a ம ி ஸ ் இ ண ் ட ி ய ா m i t s u b i s h i c h e m i c a l ம ி ட ் ச ு ப ீ ஷ ி க ெ ம ி க ் க ல ் m o d e r n l a d y ம ா ட ர ் ன ் ல ே ட ி m o h a b b a t z i n d a b a d ம ொ ஹ ப த ் ஸ ி ந ் த ா ப ா த ் m o h i n d e r a m a r n a t h ம ொ ஹ ி ந ் த ர ் அ ம ர ் ன ா த ் m o l e s ம ோ ல ் ஸ ் m o n t s h i r e m u s e u m o f s c i e n c e ம ா ன ் ட ் ஷ ை ர ் ம ி ய ூ ஸ ி ய ம ் ஆ ஃ ப ் ச ை ன ் ஸ ் m o r d h w a j ம ோ ர ் த ் வ ா ஜ ் m o t i l a l ம ோ த ி ல ா ல ் m r a n a a l ம ் ர ன ா ல ் m u d a b b i r ம ு ட ா ப ் ப ி ர ் m u d r a ம ு த ் ர ா m u j h e i n s a f c h a h i y e ம ு ஜ ே இ ன ் ச ா ஃ ப ் ச ா ஹ ி ய ெ m u j h e k a s a m h a i ம ு ஜ ே க ஸ ா ம ் ஹ ை m u n g i ம ு ன ் க ி m u q a d d a r ம ு க ா த ர ் m u r a a r e e ம ு ர ா ர ி m u r a l i d h a r ம ு ர ள ி த ர ் m u r c h i s o n f a l l s ம ு ர ் ச ி ச ன ் ஃ ப ா ல ் ஸ ் m u s e u m o f m a k p o u n i v e r s i t y ம ி ய ூ ஸ ி ய ம ் ஆ ஃ ப ் ம ா க ் ப ோ ய ூ ன ி வ ர ் ஸ ி ட ் ட ி m u s l i m ம ு ஸ ் ல ி ம ் m u s t a ' e e n a h ம ு ஸ ் த ா ய ீ ன ா m u s t a f e e d ம ு ஸ ் த ா ஃ ப ீ த ் n a a g a c h a n p a a ந ா க ச ன ் ப ா n a i r e e t ந ய ி ர ீ த ் n a i u m a r k i n a i f a s a l ந ய ி உ ம ர ் க ி ந ை ஃ ப ் ப ை ச ல ் n a n ந ன ் n a n d a d e v i ந ந ் த ா த ே வ ி n a o k i p r i z e ந ா வ ோ க ் க ி ப ் ர ை ஸ ் n a p i e r u n i v e r s i t y ந ே ப ் ப ி ய ர ் ய ூ ன ி வ ர ் ச ி ட ் ட ி n a p o l e o n b o n a p a r t e ந ெ ப ் ப ோ ல ி ய ன ் ப ோ ன ப ா ர ் ட ் n a r r a g a n s e t t ந ர ா க ன ் ச ெ ட ் n a r u l a ந ர ு ள ா n a s a m a j h ந ா ஸ ் ம ் ஜ n a s b a n d i ந ா ஸ ் ப ந ் த ி n a t c h e z t r a c e p a r k w a y ந ா ட ் ச ெ ஸ ் ட ி ர ே ஸ ் ப ா ர ் க ் வ ே n a t h d w a r a t e m p l e ந த ் வ ா ர ா ட ெ ம ் ப ி ள ் n a t i o n a l a u s t r a l i a b a n k ந ே ஷ ன ல ் ஆ ஸ ் ட ் ர ே ல ி ய ா ப ே ங ் க ் n a t i o n a l m u s e m o f k o r e a ந ே ஷ ன ல ் ம ி ய ூ ஸ ி ய ம ் ஆ ஃ ப ் க ொ ர ி ய ா n a t i o n a l m u s e u m o f d e n m a r k ந ே ஷ ன ல ் ம ி ய ூ ஸ ி ய ம ் ஆ ஃ ப ் ட ெ ன ் ம ா ர ் க ் n a v r a t r i ந வ ் ர ா த ் ர ி n a v r o z ந வ ் ர ோ ஸ ் n a z e e r ந ஸ ீ ர ் n e b r a s k a ந ெ ப ி ர ா ஸ ் க ா n e c i a ந ெ ஸ ி ய ா n e p a l ந ே ப ா ள ம ் n e w b e g i n n i n g s c h r i s t i a n ந ி ய ு ப ி க ி ன ி ங ் ஸ ் க ி ற ி ஸ ் ட ி ய ன ் n i b o d h ந ி ப ோ த ் n i c p o t h a s ந ி க ் ப ோ த ் த ா ஸ ் n i d h i s h ந ி த ி ஷ ் n i g e l ந ி க ெ ல ் n i g g l y ந ி க ் ல ி n i k e a w a r d ந ை க ் க ி அ வ ா ர ் ட ் n i k k i ந ி க ் க ி n i p p o n s t e e l ந ி ப ் ப ா ன ் ஸ ் ட ீ ல ் n i r d o s h ந ி ர ் த ோ ஷ ் n i r v a n ந ி ர ் வ ா ண ் n i t h a r ந ி த ா ர ் n i t i s h ந ி த ி ஷ ் n o o p u r ந ூ ப ு ர ் n o r d e a b a n k ந ா ர ் ட ி ய ா ப ே ங ் க ் n o v a r t i s ந ோ வ ா ர ் ட ி ஸ ் n r i p i n d e r ந ் ர ி ப ி ந ் த ர ் n u a p a d a ந வ ா ப ா ட ா n u r s i n g ந ர ் ஸ ி ங ் o b a i d ஓ ப ை த ் o d y s s e y ஓ ட ி ஸ ் ஸ ீ o l y m p e ஓ ல ி ம ் ப ் o m k a r ஓ ம ் க ா ர ் o n e - s t e p ஒ ன ் - ஸ ் ட ெ ப ் o r d e r o f g r a n d d u k e o f l i t h u a n i a g e d i m i n a s ஆ ர ் ட ர ் ஆ ஃ ப ் க ் ர ா ண ் ட ் ட ் ய ூ க ் ஆ ஃ ப ் ல ூ த ி ய ா ன ா க ெ ட ி ம ி ன ா ஸ ் o r d e r o f z h o u k o v ஆ ர ் ட ர ் ஆ ஃ ப ் ஸ ு வ ோ க ோ வ ் o r i n o c o ஒ ர ி ன ோ க ோ o r i n o c o ஓ ர ி ன ோ க ோ o r i s k a n y ஓ ர ி ஸ ் க ா ன ி o s a k a ஒ ச ா க ் க ா o t a g o u n i v e r s i t y ஒ ட ா க ோ ய ூ ன ி வ ர ் ச ி ட ் ட ி o w a i s s h a h ஓ வ ை ஸ ் ஷ ா p a a g e ப ா க ே p a d m a j a ப த ் ம ஜ ா p a d m a l ப த ் ம ல ் p a d m a r a t h ப த ் ம ர த ் p a h e l i ப ஹ ெ ல ி p a i g h a a m ப ை க ா ம ் p a l a r p o r a n d a l a r r e s e r v o i r ப ா ல ா ற ு ப ொ ற ண ் ட ல ா ற ு ர ி ச ர ் வ ா ய ர ் p a l e k a r ப ல ே க ர ் p a l k o n k i c h h a o n m e i n ப ா ல ் க ோ ன ் க ி ச ா ஹ ா ன ் ம ே ன ் p a n i t r ப ண ி த ் ர p a r a a s ப ர ா ஸ ் p a r a g ப ர ா க ் p a r a k r a m ப ர ா க ் ர ம ் p a r a n a ப ர ா ன ா p a r m a m i s s i o n a r y b a p t i s t ப ா ர ் ம ா ம ி ஷ ன ர ி ப ே ப ் ட ி ஸ ் ட ் p a r t n e r ப ா ர ் ட ் ன ர ் p a t h i k r i t ப த ி க ் ர ி த ் p a u l g a u g u i n ப ா ல ் க ா க ் வ ி ன ் p a v a k ப ா வ க ் p e a r l i e ப ே ர ் ல ி p e h l i j h a l a k ப ெ ஹ ் ல ி ஜ ா ல க ் p e n d s e ப ெ ன ் த ் ச ே p e t e r u e b e r r o t h ப ீ ட ் ட ர ் உ ப ே ர ா த ் p h a e d r a ஃ ப ே த ் ர ா p i r a t e n p r i s e t ப ி ர ா ன ் ட ெ ன ் ப ் ர ீ ஸ ் ட ் p o l i c e w a l i ப ோ ல ி ஸ ் வ ா ல ி p o r t m o o d y s t a t i o n m u s e u m ப ோ ர ் ட ் ம ூ ட ி ஸ ் ட ே ஷ ன ் ம ி ய ூ ஸ ி ய ம ் p r a g ப ி ர ா க ் p r a g y a w a t i ப ் ர க ் ய வ த ி p r a h l a a d ப ி ர ஹ ல ா த ் p r a k a s h ப ி ர க ா ஷ ் p r a k a s h a m ப ி ர க ா ஷ ம ் p r a m s u ப ் ர ம ் ஸ ு p r a n a d ப ் ர ன ா த ் p r a n s u k h ப ் ர ண ் ச ு க ் p r i s c a ப ் ர ி ஸ ் க ா p r o f i l e s i n c o u r a g e a w a r d ப ் ர ொ ஃ ப ை ல ் ஸ ் இ ன ் க ர ே ஜ ் அ வ ா ர ் ட ் p r o g e n i n d u s t r i e s l i m i t e d ப ் ர ோ ஜ ன ் இ ண ் ட ஸ ் ட ி ர ீ ஸ ் ல ி ம ி ட ெ ட ் p r o g e o n ப ் ர ோ ஜ ி ய ா ன ் p u j i t ப ு ஜ ி த ் p u j i t a ப ூ ஜ ி த ா p u l ப ு ல ் p u l a k ப ு ல க ் p u n j a b i ப ஜ ் ச ா ப ி p u n j a b i ப ஞ ் ச ா ப ி p u r k a r ப ு ர ் க ா ர ் p y a a s a s a w a n ப ி ய ா ஸ ா ஸ ா வ ன ் p y a r k a t o o f a n ப ி ய ா ர ் க ா ட ூ ஃ ப ் ப ன ் q a b e e l க ா ப ீ ல ் q a y s க ே ய ் ஸ ் q u a d e க ு வ ே த ் r a a j a k u m a a r e e ர ா ஜ க ு ம ா ர ீ r a b i a h ர ப ை ய ா r a b i t ர ப ி த ் r a d c o m ர ா ட ் க ா ம ் r a g i ர ா க ி r a h m a t ர ஹ ் ம த ் r a j a r a d h i k a p r a s a d ர ா ஜ ா ர ா த ி க ா ப ி ர ச ா த ் r a j a r a n i ர ா ஜ ா ர ா ண ி r a j g e e r ர ா ஜ ் க ீ ர ் r a k h i k i s a u g a n d h ர ா க ் க ி க ி ச ெ ள க ந ் த ் r a m b h a k t h a n u m a n ர ா ம ் ப க ் த ் ஹ ன ு ம ா ன ் r a m d a r s h a n ர ா ம ் த ர ் ஷ ன ் r a m r a j y a ர ா ம ் ர ா ஜ ் ய ா r a n d y ர ா ண ் ட ி r a n e b r a k e ர ா ன ே ப ் ர ே க ் r a n g e e l a r a j a ர ங ் க ீ ல ா ர ா ஜ ா r a n j i n i ர ஞ ் ச ன ி r a w a a l ர வ ா ல ் r e g i n a e l e n a ர ெ ஜ ி ன ா இ ல ெ ன ா r e g i n a m a r g h e r i t a ர ெ ஜ ி ன ா ம ா ர ் க ெ ர ி ட ா r e n d o r ர ெ ன ் ட ர ் r e n e ர ெ ன ெ r i c a r d o p o w e l l ர ி க ் க ா ர ் ட ோ ப ா வ ெ ல ் r i c h a r d d e g r o e n ர ி ச ் ச ர ் ட ் ட ி க ி ர ோ ய ெ ன ் r i c h a r d s i m s ர ி ச ் ச ர ் ட ் ச ி ம ் ஸ ் r i c h m o n d s a n r a f a e l ர ி ச ் ம ண ் ட ் ச ா ன ் ர ப ே ல ் r i d l e y j a c o b s ர ி ட ் ல ி ஜ ே க ் க ப ் ஸ ் r i t u p a r a n ர ி த ு ப ா ர ன ் r o b e r t f u l g h u m ர ா ப ர ் ட ் ஃ ப ல ் க ம ் r o b e r t w i l l i a m s ர ா ப ர ் ட ் வ ி ல ் ல ி ய ம ் ஸ ் r o c k c l i m b i n g ர ா க ் க ் ள ை ம ் ப ி ங ் r o m e o ர ோ ம ி ய ோ r o t t e r d a m ர ோ ட ் ட ர ் ட ா ம ் r u g b y ர க ் ப ி r u k m a ர ு க ் ம ா r u p a k ர ு ப க ் r u t g e r s ர ட ் க ர ் ஸ ் r y a n h i g g i n s ர ி ய ா ன ் ஹ ி க ் க ி ன ் ஸ ் s a a j a n k i s a h e l i ச ா ஜ ன ் க ி ச ா ஹ ே ள ி s a a v i t r e e ச ா வ ி த ் ர ீ s a c h a i k i t a q a t ஸ ச ா ய ி க ி த ா க ா த ் s a c h d e v a p u b l i c s c h o o l , r o h i n i ச ா ச ் த ே வ ா ப ப ் ள ி க ் ஸ ் க ூ ல ் , ர ோ ஹ ி ன ி s a c h i n t e n d u l k a r ச ச ் ச ி ன ் ட ெ ண ் ட ு ல ் க ர ் s a c h i n t e n d u l k a r ச ச ் ச ி ன ் ட ெ ன ் ட ு ல ் க ர ் s a c r e d h e a r t g i r l s h i g h s c h o o l ச ே க ் ர ெ ட ் ஹ ா ர ் ட ் க ே ர ் ல ் ஸ ் ஹ ை ஸ ் க ூ ல ் s a d a n a n d ச த ா ன ந ் த ் s a d y o j a t ச த ் ய ோ ஜ த ் s a g g u ச ா க ு s a h e b ச ா ஹ ெ ப ் s a i n i ச ை ன ி s a j e e w a d e s i l v a ச ஜ ீ வ ா ட ி ச ி ல ் வ ா s a l a h u d d i n a h m e d ஸ ா ல ா ஹ ு த ் த ி ன ் அ ஹ ் ம த ் s a l a m ச ல ா ம ் s a l g i r a h ச ா ல ் க ி ர ா ஹ ் s a l v a t o r e ச ல ் வ த ோ ர ் s a m a d h i ச ம ா த ி s a m b a n d h ச ம ் ப ந ் த ் s a m i r a h ச ம ி ர ா s a n j a n a ச ஞ ் ச ன ா s a n t r a v i d a s k i a m a r k a h a n i ச ன ் த ் ர வ ி த ா ஸ ் க ி அ ம ர ் க ா ஹ ா ன ி s a n y a k t a ச ன ் ய க ் த ா s a r a n ச ர ண ் s a r a s w a t i ச ர ஸ ் வ த ி s a r i t ச ர ி த ் s a t h a n u r r e s e r v o i r ச ா த ் த ன ூ ர ் ர ி ச ர ் வ ா ய ர ் s a t i m a d a l a s a ச த ி ம ட ல ் ஸ ா s a t n a m o v e r s e a s ச த ் ன ம ் ஓ வ ர ் ச ீ ஸ ் s a t y a k a m ச த ் ய க ம ் s a t y a k a m ச த ் ய ா க ம ் s a y y i d a h ச ய ் ய ி த ா s c h o p e n h a u e r ஷ ோ ப ெ ன ் ஹ ா ய ர ் s c o t i a p l a z a ஸ ் க ோ த ி ய ா ப ி ள ா ஸ ா s c o t t i s h f o o t b a l l m u s e u m ஸ ் க ா ட ் ட ி ஷ ் ஃ ப ் ப ூ ட ் ப ா ல ் ம ி ய ூ ஸ ி ய ம ் s c o u t s ஸ ் க ௌ ட ் ஸ ் s e a g r a m ச ீ க ் ர ா ம ் s e a s o n ச ீ த ா s e i f ச ி ஃ ப ் s e l e n e ச ெ ல ி ன ி s e p i k f l u t e s k a n e n g a r a ச ெ ப ி க ் ஃ ப ் ள ூ ட ் ஸ ் க ன ே ங ் க ர ா s e v a s a d a n ச ே வ ா ச ா த ன ் s e v e n s e a s ச ெ வ ன ் ச ீ ஸ ் s h a b e e h a h ஷ ப ீ ஹ ா s h a g u f a ஷ ா க ு ஃ ப ் ப ா s h a j e e ' a h ஷ ா ஜ ீ ய ா s h a m i t a ஷ ம ி த ா s h a n t i ஷ ா ந ் த ி s h a n t i ஷ ா ன ் த ி s h a r a f a t c h h o d d i m a i n e ஷ ா ர ா ஃ ப ் ப த ் ச ோ த ் த ி ம ை ன ே s h a r a r a ஷ ர ா ர ா s h a r e e f b a d m a s h ஷ ர ீ ஃ ப ் ப ா த ் ம ா ஷ ் s h a r i f ஷ ர ி ஃ ப ் s h a r i q a h ஷ ர ி க ா s h a t a d h a a r ஷ த த ா ர ் s h a u r y a c h a k r a ஷ ௌ ர ் ய ச க ் ர ா s h i e l a ஷ ீ ல ா s h i m s h a m ஷ ி ம ் ஷ ா ம ் s h i m m y ஷ ி ம ் ம ி s h i r l e y t e m p l e b l a c k ஷ ி ர ் ல ி ட ெ ம ் ப ி ள ் ப ் ள ா க ் s h i v g a n g a ஷ ி வ ் க ங ் க ா s h i v a k u m a a r ஷ ி வ க ு ம ா ர ் s h r a v a n i ஷ ர வ ன ி s h r i l a k s h m i ஸ ் ர ீ ல க ் ஷ ் ம ி s h r i p a t i ஸ ் ர ீ ப த ி s h u m a y l a h ஷ ு ம ை ல ா s i d h h a r d h ச ி த ் த ா ர ் த ் s i g n y a w a r d ச ி க ் ன ி அ வ ா ர ் ட ் s i g o u r n e y w e a v e r ச ி க ோ ர ் ன ி வ ீ வ ர ் s i l e a s ச ி ல ி ய ா ஸ ் s i l k m u s e u m o f s o u f l i ச ி ல ் க ் ம ி ய ூ ஸ ி ய ம ் ஆ ஃ ப ் ச ெ ள ஃ ப ் ல ி s i n h a r a j a f o r e s t r e s e r v e ச ி ன ் ன ர ா ஜ ா ஃ ப ா ர ஸ ் ட ் ர ி ச ர ் வ ் s i r d a r y a ச ர ் த ா ர ் ய ா s i w a n ச ி வ ன ் s n o r k e l i n g ஸ ் ன ோ ர ் க ெ ல ி ங ் s o c c e r ச ா க ் க ர ் s o m n a t h j y o t i r l i n g a ச ோ ம ் ந ா த ் ஜ ோ த ி ர ் ல ி ங ் க s o p h i a h i g h s c h o o l ச ோ ப ி ய ா ஹ ை ஸ ் க ூ ல ் s o u t h i s l a n d ச ௌ த ் ஐ ல ே ண ் ட ் s r i v i l l i p u t t u r ஸ ் ர ீ வ ி ல ் ல ி ப ு த ் த ூ ர ் s t a n l e y d e s i l v a ஸ ் ட ா ன ் ல ி ட ி ச ி ல ் வ ா s t o t i n k i ஸ ் ட ொ ட ி ன ் க ி s t u g i l l e s p i e ஸ ் ட ூ க ி ல ் ல ெ ஸ ் ப ி s u d e s h n a ச ு த ே ஷ ் ன ா s u d r a s h a n ச ு த ர ் ஷ ன ் s u g a r ஷ ு க ர ் s u k r i t i ச ு க ் ர ி த ி s u l a k s h a n a ச ு ல க ் ஷ ன ா s u l a y m a n ச ு ல ய ் ம ா ன ் s u m i t r a a ச ு ம ி த ் ர ா s u n l i f e f i n a n c i a l s e r v i c e s ச ன ் ல ை ஃ ப ் ஃ ப ி ன ா ன ் ஷ ி ய ல ் ச ர ் வ ீ ச ஸ ் s u n e e t i ச ு ன ீ த ி s u r a m a e e ச ு ர ம ய ி s u r y a p a h a r ச ூ ர ் ய ப ஹ ர ் s u s a n e ச ு ஸ ன ் s u v a a s ச ு வ ா ஸ ் s u z y ச ு ஸ ி s w a n s o n ஸ ் வ ா ன ் ச ன ் s w i s s l i f e ச ு வ ி ஸ ் ல ை ப ் s y n c h r o n i s e d s w i m m i n g ச ி ங ் க ் ர ன ை ஸ ் ட ் ஸ ் வ ி ம ் ம ி ங ் t a c o n i c ட ா க ோ ன ி க ் t a h i r n a q q a s h ட ா ஹ ி ர ் ந ஷ ா க ் t a i s e i ட ை ச ே t a l i e s i n ட ா ல ி ஸ ி ன ் t a m b o r a ட ம ் ப ோ ர ா t a n u j a த ன ு ஜ ா t a p a n ட ப ா ன ் t a p a n த ப ன ் t a p a s y a த ப ா ஸ ் ய ா t a p a t i த ப த ி t a p e s h த ப ே ஷ ் t a r o p h a r m a c e u t i c a l i n d u s t r i e s ட ா ர ோ ப ா ர ் ம ா ச ெ ட ் ட ி க ் க ல ் இ ண ் ட ஸ ் ட ி ர ீ ஸ ் t a r u j a த ா ர ு ஜ ா t a r u n i k a த ர ு ண ி க ா t a r y n ட ா ர ி ன ் t a s l i m த ஸ ் ல ீ ம ் t a t a c o f f e e ட ா ட ா க ா ஃ ப ி t e r a h ட ே ர ா t e x a s ட ெ க ் ஸ ா ஸ ் t h a b i t த ா ப ி த ் t h a l i a த ா ல ி ய ா t h e i n t e r n a t i o n a l a n d y a w a r d s த ி இ ண ் ட ர ் ந ே ஷ ந ல ் ஆ ண ் ட ி அ வ ா ர ் ட ் ஸ ் t h o r i u m த ோ ர ி ய ம ் t i l a k த ி ல க ் t i m b a l e s ட ி ம ் ப ா ல ் ஸ ் t o m ட ா ம ் t o m p e t e r s ட ா ம ் ப ீ ட ் ட ர ் ஸ ் t o m r i z ட ா ம ் ர ி ஸ ் t r a v i s ட ் ர ா வ ி ஸ ் t r i b o r o u g h ட ி ர ை ப ோ ர ெ ள t r i k a y a த ் ர ி க ய ா t r i n c u l o ட ி ர ி ன ் க ு ல ோ t r o m b i t a ட ் ர ோ ம ி ட ் ட ா t r u m p ட ் ர ம ் ப ் t u f a y l a h த ு ஃ ப ை ல ா t u n g c h u n g f o r t த ு ங ் ச ங ் ஃ ப ் ப ோ ர ் ட ் u j a a l a a உ ஜ ா ல ா u m e e d உ ம ீ த ் u n i t e d a m e r i c a i n d e m n i t y ய ூ ன ை ட ெ ட ் அ ம ெ ர ி க ் க ா இ ன ் ட ெ ம ் ன ி ட ் ட ி u n i v e r s i t y o f b r i s t o l ய ூ ன ி வ ர ் ச ி ட ் ட ி ஆ ஃ ப ் ப ் ர ி ஸ ் ட ா ல ் u n i v e r s i t y o f c a n b e r r a ய ூ ன ி வ ர ் ச ி ட ் ட ி ஆ ஃ ப ் க ே ன ் ப ெ ர ் ர ா u n i v e r s i t y o f m a r y l a n d ய ூ ன ி வ ர ் ச ி ட ் ட ி ஆ ஃ ப ் ம ே ர ி ல ே ண ் ட ் u n i v e r s i t y o f m i s s o u r i ய ூ ன ி வ ர ் ச ி ட ் ட ி ஆ ஃ ப ் ம ி ச ோ ர ி u q b a h உ க ் ப ா u r s h i t a ஊ ர ் ஷ ி த ா u r u g u a y உ ர ு க ு வ ே u s h a m a r t i n உ ஷ ா ம ா ர ் ட ி ன ் u t a h உ ட ் ட ா ஹ ் v a a g h வ ா க ் v a a g h m a r e வ ா க ் ம ா ர ே v a a h i d வ ா ஹ ி த ் v a a k p a t i வ ா க ் ப த ி v a i j a y a n t i வ ை ஜ ெ ய ந ் த ி v a l t i n a வ ல ் ட ி ன ா v a n h i s h i k h a வ ன ் ஹ ி ஷ ி க ா v a r h a d வ ர ் ஹ ா த ் v a r t o u h i வ ர ் த ௌ ஹ ி v a s u m a t i வ ா ச ு ம த ி v a t s a வ த ் ஸ ா v e n u s வ ீ ன ஸ ் v e r m o n t m a r b l e m u s e u m வ ெ ர ் ம ா ன ் ட ் ம ா ர ் ப ல ் ம ி ய ூ ஸ ி ய ம ் v e r n வ ெ ர ் ன ் v i a r e g g i o p r i z e வ ி ய ர ி க ி ய ோ ப ் ர ை ஸ ் v i d u r வ ி த ு ர ் v i d y a s h a n k a r வ ி த ் ய ா ஷ ங ் க ர ் v i j a y a v a r g e e y வ ி ஜ ய வ ர ் க ீ v i j a y n a g a r வ ி ஜ ய ் ந க ர ் v i l y a t k h a n வ ி ல ் ய ா த ் க ா ன ் v i n c e n t வ ி ன ் ச ெ ன ் ட ் v i n e e t a வ ி ன ீ த ா v i r g i l வ ி ர ் ஜ ி ல ் v i r g i n i a r e e l வ ெ ர ி ஜ ீ ன ி ய ா ர ீ ல ் v i s h a l g a d வ ி ஷ ல ் க ா த ் v i s h n u p r i y a வ ி ஷ ் ண ு ப ி ர ி ய ா v i t t h a l a வ ி த ா ல ா v i v e k a a வ ி வ ே க ா v u s i s i b a n d a வ ூ ஸ ி ச ி ப ா ண ் ட ா v y a s வ ி ய ா ஸ ் w a l m a r t s t o r e s வ ா ல ் ம ா ர ் ட ் ஸ ் ட ோ ர ் ஸ ் w a q t k e s h a h z a d e வ க ் த ் க ே ஷ ா ஹ ் ஸ ா த ே w a r r e n b e t t i e வ ா ர ன ் ப ெ ட ் ட ி w a s i m a h வ ஸ ி ம ா w e b s t e r வ ெ ப ் ஸ ் ட ர ் w e y m a r k வ ே ம ா ர ் க ் w i l l i a m w o r d s w o r t h வ ி ல ் ல ி ய ம ் வ ோ ர ் ட ் ஸ ் வ ொ ர ் த ் w i l l i a m i t e w a r i n i r e l a n d வ ி ல ் ல ி ய ம ை ட ் வ ா ர ் இ ன ் ஐ ய ர ் ல ா ண ் ட ் w i l l i e b r o w n வ ி ல ் ல ி ப ி ர வ ு ன ் w i l l i e n e l s o n வ ி ல ் ல ி ந ெ ல ் ச ன ் w i l t o n வ ி ல ் ட ன ் w i m b o r n வ ி ம ் ப ா ர ் ன ் w i n o n a r y d e r வ ி ன ோ ன ா ர ை ட ர ் w o 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//False Position method by Rêmullo Costa function y = f(x); p = 3.5; y = (x ./ (1-x)) .* sqrt(2 * p./(2 + x)) - 0.04; //função a ser utilizada (fuction to be used - can be any function) endfunction x = [0:0.01:0.1]; //valores de x para checar a função no gráfico (velues of 'x' to check the function on the graphic) //plot da função plot(x,f(x), '-o'); xgrid; x_velho = 0.01; //chute inicial (guess) x = 0.1; erro = 1; //erro inicial para rodar a função (initial error to run the function) it = 1; //iteracão inicial precisao = -2 //(accuracy) while(erro >= 10^precisao)&it<200 do //if the error is bigger than the accuracy and the iteration is smaller than 200 x_velho2 = x_velho; //save the first initial guess x_velho = x; //change the initial guess for x secante = (f(x_velho)-f(x_velho2))/(x_velho-x_velho2) x = x_velho - (f(x_velho)/secante); //calcular o proximo x erro = abs((x-x_velho)/ x); disp([it x erro]); it = it+1; end
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//Example 7_9 clc(); clear; //To find out the angle where it should be banked v=25 //units in meters/sec r=60 //units in meters g=9.8 //units in meters/sec^2 tantheta=v^2/(r*g) //units in radians theta=atan(tantheta)*180/%pi printf("The angle where it should be banked is theta=%d degrees",round(theta))
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Example_5_2.sci
clear; clc; printf("\n Example 5.2"); //Area of the tank required to give an underflow concentration of 1200kg/m^3 for a feed rate of 2 m^3/min //Initial height of slurry in the tank H = [900;800;700;600;500;400;300;260;250;220;200;180]; uc = [13.4;10.76;8.6;6.6;4.9;3.2;1.8;1.21;1.11;0.80;0.60;0.40]; i=1; while i<13 c(i)=200*900/H(i); x(i)=1000*(1/c(i)-1/1200); sed(i) = c(i)*uc(i)/(1000*60); y(i)= uc(i)*10^(-3)/((1/c(i)-1/1200)*60); z(i) = 1/y(i); i=i+1; end printf("\nH(mm)"); printf("\n%d",H); printf("\n c(kg/m^3):\n"); printf("%d\n",c); printf("Sedimentation flux(kg.s/m^2):\n"); printf("%.4f\n",x); printf("uc/(1/c-1/1200)\nkg.sec/m^2:\n"); printf("%.4f\n",y); printf("1000*(1/c-1/cu)\nm^3/kg*10^3\n"); printf("%.3f \n",x); printf("\n\n(1/c-1/1200)/uc\n m^2.kg/sec\n"); printf("%.1f\n",z); m1=max([18.7;20.1;21.3;22.7;23.8;26.0;27.8;30.3;30.0;29.2;27.8;25.0]); printf("\n\nthe maximum value of (1/c-1/1200)/uc is %.1f m^2*kg/s",m1); A = 2*200*30.3/60; printf("\n The area required is A = Qc[(1/c-1/cu)/uc]max = %dm^2",A)
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clc; clear; //----------------- // Question 1 // Part a s = poly(0, 's'); Ga = 1/(s^3 + 4*s^2 + 5*s); Ga = syslin('c', Ga); scf(); evans(Ga, 30); //----------------- // Part b Gb = (s+1) / (s^2 * (s + 3.6)); Gb = syslin('c', Gb); scf(); evans(Gb, 80); //----------------- // Part c Gc = (s+0.4) / (s^2 * (s + 3.6)); Gc = syslin('c', Gc); scf(); evans(Gc, 50); //----------------- // Part d P = [-5, -2, -1, 0, 1, 2, 3, 4, 5]; scf(); for i=1:size(P, 2) p = P(i); Gd = (s + p) / (s * (s+1) * (s+2)); Gd = syslin('c', Gd); evans(Gd, 200); end title(["Locus of closed loop poles of", "$\frac{s+p}{s(s+1)(s+2)}$", ",",... "$p \in \{-5,-2,-1,0,1,2,3,4,5\}$"], "fontsize", 3);
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28_05.sce
//Problem 28.05: A series L–R–C circuit has a sinusoidal input voltage of maximum value 12 V. If inductance, L = 20 mH, resistance, R = 80 ohm, and capacitance, C = 400 nF, determine (a) the resonant frequency, (b) the value of the p.d. across the capacitor at the resonant frequency, (c) the frequency at which the p.d. across the capacitor is a maximum, and (d) the value of the maximum voltage across the capacitor. //initializing the variables: R = 80; // in ohms C = 0.4e-6; // IN fARADS L = 0.020; // IN Henry Vm = 12; //in volts //calculation: //Resonant frequency, fr = 1/(2*%pi*((L*C)^0.5)) wr = 2*%pi*fr //Q = wr*L/R Q = wr*L/R Vc = Q*Vm //the frequency f at which VC is a maximum value, f = fr*(1 - (1/(2*Q*Q)))^0.5 //the maximum value of the p.d. across the capacitor is given by: Vcm = Vc/(1 - (1/(2*Q))^2)^0.5 printf("\n\n Result \n\n") printf("\n (a)The resonant frequency is %.1f Hz ",fr) printf("\n (b)the value of the p.d. across the capacitor at the resonant frequency %.2f V ",Vc) printf("\n (c)the frequency f at which Vc is a maximum value, is %.1f Hz ",f) printf("\n (d)the maximum value of the p.d. across the capacitor is %.1f V ",Vcm)
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1_2.sce
//Example 1.2 //Conversion Using Shortcut Method //Page no. 4 clc;close;clear; A=10;C=12; d=(((1)*16+A)*16+2)*16+C; disp(d,'Decimal form of 1A2C is =');
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Example4_5.sce
//Example 4.5. clc disp("In an P-type material, the concentration of acceptor atoms is given by") disp("NA = NV*e^(-(EF - EV)/k*T)") disp("Let initially NA = NA0, EF = EF0 and EF0 - EV = 0.4 eV") disp("Therefore, NA0 = NV*e^(-0.4/0.025) = NV*e^-16") disp("(a) When NA = 0.5*NA0 and EF = EF1, then") disp("0.5*NA0 = NV*e^(-(EF1-EV)/0.025) = NV*e^-40(EF1 - EV)") disp("Therefore, 0.5*NV*e^-16 = NV*e^-40(EF1 - EV)") disp("Therefore, 0.5 = e^(-40*(EF1 - EV)+16)") disp("Taking natural logarithm on both sides, we get") disp("ln (0.5) = -40(EF1 - EV) + 16") q1=(16-log(0.5))/40 disp(q1,"EF1 - EV(in eV) = ") disp("(b) When NA=4*NA0 and EF = EF2, then") disp("ln 4 = -40*(EF2 - EV) + 16") q2=(16-log(4))/40 disp(q2,"EF2 - EV(in eV) = ")
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Chapter1_Example18.sce
clc clear //INPUT DATA W=160;//load on dynamometer in N N=3000;//speed of engine in rpm Dy=20420;//Dynamometer constnat L=0.09;//stroke in m d=0.06;//bore in m nc=4;//number of cylinders n=2;//for four cylinders mf=4.95;//fuel consumption in kg/h cv=42500;//calorific value BP1c=16.5;//Brake power of 1st cylinder BP2c=16;//Brake power of 2nd cylinder BP3c=15.6;//Brake power of 3rd cylinder BP4c=17.6;//Brake power of 4th cylinder //CALCULATIONS BP4=W*N/Dy;//Brake power in kW pmb=(BP4*60*n)/(L*(3.14*(d^2)/4)*N*nc*4);//Brake ean effective pressure in kN/m^2 nbt=(BP4*3600/(mf*cv))*100;//Brake thermal efficiency in percentage IP1=BP4-BP1c;//Indicated power of 1st cylinder IP2=BP4-BP2c;//Indicated power of 2nd cylinder IP3=BP4-BP3c;//Indicated power of 3rd cylinder IP4=BP4-BP4c;//Indicated power of 4th cylinder IP=IP1+IP2+IP3+IP4;//Total indicated power in kW nm=(BP4/IP)*100;//Mechanical efficiency in percentage bsfc=mf/BP4;//Brake specific fuel consumption in kg/kWh //OUTPUT printf('(i)Brake power is %3.3f kW \n (ii)Brake mean effective pressure is %3.3f kN/m^2 \n (iii)brake thermal efficiency is %3.2f percentage \n (iv)mechanical efficiency is %3.3f percentage \n (v)Brake specific fuel consumption %3.3f kg/kW.hr ',BP4,pmb,nbt,nm,bsfc)
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Ex5_11_u1.sce
//Example 5_11_u1 clc(); clear; //To determine the unitcell and its dimensions //Experimental data //We have relation sin^(theta)=(lamda/2*a)^2 and (h^2+k^2+l^2)=j*(lamda/2*a)^2 theta21=12.1 //units in degrees theta22=17.1 //units in degrees theta23=21 //units in degrees theta24=24.3 //units in degrees theta25=27.2 //units in degrees theta26=29.9 //units in degrees theta28=34.7 //units in degrees theta29=36.9 //units in degrees theta210=38.9 //units in degrees theta211=40.9 //units in degrees theta212=42.8 //units in degrees theta1=theta21/2 //units in degrees theta2=theta22/2 //units in degrees theta3=theta23/2 //units in degrees theta4=theta24/2 //units in degrees theta5=theta25/2 //units in degrees theta6=theta26/2 //units in degrees theta8=theta28/2 //units in degrees theta9=theta29/2 //units in degrees theta10=theta210/2 //units in degrees theta11=theta211/2 //units in degrees theta12=theta212/2 //units in degrees //sin^2(theta) values sin1=(sin(theta1*%pi/180))^2 sin2=(sin(theta2*%pi/180))^2 sin3=(sin(theta3*%pi/180))^2 sin4=(sin(theta4*%pi/180))^2 sin5=(sin(theta5*%pi/180))^2 sin6=(sin(theta6*%pi/180))^2 sin8=(sin(theta8*%pi/180))^2 sin9=(sin(theta9*%pi/180))^2 sin10=(sin(theta10*%pi/180))^2 sin11=(sin(theta11*%pi/180))^2 sin12=(sin(theta12*%pi/180))^2 //sin^2(theta)/0.0111 value temp1=sin1/sin1 temp2=sin2/sin1 temp3=sin3/sin1 temp4=sin4/sin1 temp5=sin5/sin1 temp6=sin6/sin1 temp8=sin8/sin1 temp9=sin9/sin1 temp10=sin10/sin1 temp11=sin11/sin1 temp12=sin12/sin1 //(h,k,l) values are determined such that the sum h^2+k^2+l^2=temp value in that manner hence we have to select the (h,k,l) values //(h,k,l) values hkl1=100 //As h^2+k^2+l^2=1 hkl2=110 //As h^2+k^2+l^2=2 hkl3=111 //As h^2+k^2+l^2=3 hkl4=200 //As h^2+k^2+l^2=4 hkl5=210 //As h^2+k^2+l^2=5 hkl6=211 //As h^2+k^2+l^2=6 hkl8=220 //As h^2+k^2+l^2=8 hkl9=300 //As h^2+k^2+l^2=9 hkl10=310 //As h^2+k^2+l^2=10 hkl11=311 //As h^2+k^2+l^2=11 hkl12=222 //As h^2+k^2+l^2=12 printf("unit cell Dimensions when 2*theta=%.1f is (%d) where sin^2(theta)/0.0111 is %d\n",theta21,hkl1,temp1 ) printf("unit cell Dimensions when 2*theta=%.1f is (%d) where sin^2(theta)/0.0111 is %.1f\n",theta22,hkl2,temp2 ) printf("unit cell Dimensions when 2*theta=%.1f is (%d) where sin^2(theta)/0.0111 is %.1f\n",theta23,hkl3,temp3 ) printf("unit cell Dimensions when 2*theta=%.1f is (%d) where sin^2(theta)/0.0111 is %.1f\n",theta24,hkl4,temp4 ) printf("unit cell Dimensions when 2*theta=%.1f is (%d) where sin^2(theta)/0.0111 is%.1f\n",theta25,hkl5,temp5 ) printf("unit cell Dimensions when 2*theta=%.1f is (%d) where sin^2(theta)/0.0111 is %.1f\n",theta26,hkl6,temp6 ) printf("unit cell Dimensions when 2*theta=%.1f is (%d) where sin^2(theta)/0.0111 is %.1f\n",theta28,hkl8,temp8 ) printf("unit cell Dimensions when 2*theta=%.1f is (%d) where sin^2(theta)/0.0111 is %.1f\n",theta29,hkl9,temp9 ) printf("unit cell Dimensions when 2*theta=%.1f is (%d) where sin^2(theta)/0.0111 is %.1f\n",theta210,hkl10,temp10 ) printf("unit cell Dimensions when 2*theta=%.1f is (%d) where sin^2(theta)/0.0111 is %.1f\n",theta211,hkl11,temp11 ) printf("unit cell Dimensions when 2*theta=%.1f is (%d) where sin^2(theta)/0.0111 is %.1f\n",theta212,hkl12,temp12 ) lamda=71 //units in pm a=lamda/(2*sqrt(sin1)) //units in pm printf("The unitcell and its dimensions are %dpm",a)
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Ex11_2.sce
//Part B Chapter 3 Example 2 clc; clear; close; format('v',6); BC=25;//mm AB=125;//mm AF=85;//mm EF=25;//mm A_GBCD=BC*(AB-EF);//mm^2 A_GEFA=AF*EF;//mm^2 //Distance of CG from AF ybar=((A_GBCD*(AB-2*EF)+A_GEFA*EF/2)/(A_GBCD+A_GEFA));//mm //Distance of CG from AB xbar=((A_GBCD*(BC/2)+A_GEFA*AF/2)/(A_GBCD+A_GEFA));//mm disp(ybar,"From reference axes AF, centroid is(mm) : "); disp(xbar,"From reference axes AB, centroid is(mm) : ");
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example_5.sce
s=poly(0,'s') a=(s+1)*(s+2)*(s+1.5);//denominator of transfer function h=syslin('c',1/a);//here G(s)H(s)is represented by h clf(); nyquist(h) // add a datatip ax=gca(); h_h=ax.children($).children(2);//handle on Nyquist curve of h tip=datatipCreate(h_h,[1.331,0.684]); datatipSetOrientation(tip,"upper left");
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testAVJerk.sce
//--------------------------------------------------// // test the cost computed with different QP // //--------------------------------------------------// clear; exec('Load.sce') disp('') disp('------ Test Predictive Control -------') disp('') // Variables global pour le calcul du cout global Q_global ; global Udiag_global; global Vdiag_global; global Eframe_global; global Sdes_global ; global Ewalk_global ; global Np_global; ndof_in = 2; Te_in = 0.1; L_in = matIntMireC; stateCoM_in = zeros(3*ndof_in,1); funcost_in = costGlobalMireJerk; Np_in = 4; name_in ='test'; //----------------------------------------------------------------// // problem Statement // A fixed Object and a mobile camera //----------------------------------------------------------------// // ------ Camera Pose pose = [ stateCoM_in(1) stateCoM_in(2) 0 -%pi 0 stateCoM_in(3)]'; stateCoM_m = stateCoM_in; Np_m = Np_in; // horizon lenght Nc_m = Np_m; jerk_m = [0*ones(Np_m,1);0.6*ones(Np_m,1)]; ndof_m = ndof_in; for i=1:ndof_m-2 jerk_m = [jerk_m; zeros(Np_m,1)]; end // ------ Constraints definition xu_m = [0.4 ; 0.4 ]; // position max of the a 2D point in the image plane xl_m = [-0.4 ; -0.4 ]; // position min of the a 2D point in the image plane bu_m = 1e4*0.25*ones(ndof_in,1); // command bounds bl_m = -bu_m; // command bounds on the horizon // -------- Sampling time Te_m = Te_in; // to be consistant with the image frame rate Te_simu = 1/25; a_m = 0.10; // dimension of the target oP_m = mire5points (a_m); // create the Npbts Points Target Nbpts_m = length(oP_m)/3 ; //-------- LFunction Lfunction = L_in; // ----- Q definction Q_m = matWeightIdentity(Np_m,Nbpts_m); //Q_m = matWeightIdentityZero(Np_m,Nbpts_m,1); //Q_m = matWeightTV(Np_m,Nbpts_m); // ----- Cost and function funcost_m = funcost_in; // ------ Homogeneous Poses wMr_m = homogeneousMatrixFromPos(pose); [rMc_m,rVc_m]= loadHRP2camCom(); wMc_m = wMr_m*rMc_m; posecMo_m = [ 0 0 1 0 0 0 ]; posecDesMo_m= [ 0 0 1 0 0 0 ]; cMo_m = homogeneousMatrixFromPos(posecMo_m); // pose target/object init wMo_m = wMc_m*cMo_m; // compute the init projection on the view cP_m = changeFrameMire(oP_m,cMo_m); // target Points in the camera frame s_m = projectMireDirect(cP_m); // projection of the target points in the image plane Z_m = cP_m(3:3:length(cP_m)) ; // depth of the target points in the camera frame //------- Desired Camera Object Position cDesMo_m = (homogeneousMatrixFromPos(posecDesMo_m)); wMcDes_m = wMo_m*inv(cDesMo_m); wMcDes_m = wMcDes_m.*(abs(wMcDes_m)>1e-10); // compute the desired projection on the view cDesP_m = changeFrameMire(oP_m,cDesMo_m); // desired target Points in the camera frame sDes_m = projectMireDirect(cDesP_m); // desired target Points projection ZDes_m = cDesP_m(3:3:length(cDesP_m)) ; // desired depth halt; //----------------- // //------------------ [Sp_m, Sv_m, Sa_m, Up_m, Uv_m, Ua_m] = buildC(Np_m,Te_m); [sm_out, Z_out ]= predHorGlobalMireJerk(s_m,Z_m,stateCoM_m,rMc_m,jerk_m,Sp_m,Up_m,Sv_m,Uv_m,Sa_m,Ua_m,Te_m,Np_m,ndof_m); global computeL_global ; computeL_global= matIntMireC; L_out = predIntMatGlobalJerk(computeL_global,sm_out,Z_out,Np_m,Nbpts_m); Lbig= bigPredBigMatrixGlobal(L_out,Np_m, Nbpts_m); StepNumber=4; defineGlobalVariableJerk(s_m,Z_m,stateCoM_m,rMc_m,Np_m,Nbpts_m,ndof_m,Te_m,sDes_m,ZDes_m,Lfunction); Ewalk_global= [[eye(Np_global,Np_global), zeros(Np_global,StepNumber*2+Np_global)];[zeros(Np_global,StepNumber+Np_global),eye(Np_global,Np_global), zeros(Np_global,StepNumber)]] ; Q = Ewalk_global'*Udiag_global'*Eframe_global'*Vdiag_global'*Lbig'*Lbig*Vdiag_global*Eframe_global*Udiag_global*Ewalk_global; pT = (sm_out-Sdes_global)'*Lbig*Vdiag_global*Eframe_global*Udiag_global*Ewalk_global; djerk_m = 0*ones(Np_m,1); ndof_m = ndof_in; for i=1:ndof_m-1 djerk_m = [djerk_m; zeros(Np_m,1)]; end djerkAndrei = [djerk_m(1:Np_m);zeros(StepNumber,1);0.0*ones(Np_m,1); zeros(StepNumber,1)]; costQP = (sm_out-Sdes_global)'*(sm_out-Sdes_global)+pT*djerkAndrei+djerkAndrei'*Q*djerkAndrei Q2 = Udiag_global'*Eframe_global'*Vdiag_global'*Lbig'*Lbig*Vdiag_global*Eframe_global*Udiag_global; pT2 = (sm_out-Sdes_global)'*Lbig*Vdiag_global*Eframe_global*Udiag_global; cost2 = djerk_m'*Q2* djerk_m+pT2* djerk_m+(sm_out-Sdes_global)'*(sm_out-Sdes_global) [Qvisu, pTvisu]= computeQPvisuDelta(sm_out,Sdes_global, Lbig) cost3 = djerk_m'*Qvisu* djerk_m+pTvisu* djerk_m+(sm_out-Sdes_global)'*(sm_out-Sdes_global) halt; index=1; costGlobal = costGlobalMireJerk(index,jerk_m+djerk_m); disp('costGlobal') disp(costGlobal) costLocal = costLocalMireJerk(index,jerk_m+djerk_m) ; disp('costLocal') disp(costLocal)
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clear //Given H=0.28 //G V=0.40 //G //Calculation // A=V/H a=atan(A)*180/3.14 R=sqrt(H**2+V**2) //Result printf("\n (i) Angle of dip is %0.0f Degree",a) printf("\n (ii) earths total magnetic field is %0.2f G",R)
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clc clear //INPUT DATA Ho=6.5*10^4//The critical field at 0K in A/m Tc=7.18//The temperature for lead in K r=0.5*10^-3//radius of superconducting wire of lead in m T=4.2//temperature of superconducting wire in K //CALCULATION Hc=(Ho*(1-(T/Tc)^2))//The critical field in KA/m Ic=2*3.14*Hc*r//The critical density for a superconducting wire of lead is in A //OUTPUT printf('The critical density for a superconducting wire of lead is %3.2f in A',Ic)
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function I = metodoTrapecio(f, a, b) I = (b - a) * (f(a) + f(b)) /2 endfunction function I = metodoTrapecioComp(f, a, b, n) // Longitud de los subintervalos h = (b - a) / n // Calculo los xi x = linspace(a, b, n) // Acumulador I = 0 for i = 1:n // Caso x0 y xn if (i == 1) || (i == n) then I = I + (1/2) * f(x(i)) // Caso x1 a x(n-1) else I = I + f(x(i)) end end // Resultado final I = I * h endfunction function I = metodoTrapecioBiDim(f, a, b, c, d) h = (b - a) * (d - c) / 4 I = h * (f(c,a) + f(c,b) + f(d, a) + f(d,b)) endfunction function I = metodoSimpson(f, a, b) h = (b - a) / 2 c = a + h I = (h/3) * (f(a) + 4 * f(c) + f(b)) endfunction function I = metodoSimpsonComp(f, a, b, n) // La cantidad de subintervalos debe ser par if modulo(n, 2) <> 0 then I = %nan else // Longitud de los subintervalos h = (b - a) / n // Calculo los xi x = linspace(a, b, n) // Acumulador I = 0 for i = 1:n // Caso x0 y xn if (i == 1) || (i == n) then mul = 1 else // Caso x1 a x(n-1) if modulo(i, 2) == 0 then mul = 4 else mul = 2 end end // Utilizo mul para representar el valor por el que se multiplica // a f(xi) en Sn(f) I = I + mul * f(x(i)) end // Resultado final I = I * (h/3) end endfunction function ej1() printf("Primera integral, punto a \n") f1 = log a1 = 1 b1 = 2 vr1 = intg(a1, b1, f1) aprox1tra = metodoTrapecio(f1, a1, b1) aprox1simp = metodoSimpson(f1, a1, b1) printf("Valor real: %f \nValor aproximado por trapecio: %f \nvalor aprox por Simpson: %f\n", vr1, aprox1tra, aprox1simp) printf("\n------------------------\n\n") printf("Segunda integral, punto b \n") deff("y = f2(x)", "y = x ** (1/3)") a2 = 0 b2 = 0.1 vr2 = intg(a2, b2, f2) aprox2tra = metodoTrapecio(f2, a2, b2) aprox2simp = metodoSimpson(f2, a2, b2) printf("Valor real: %f \nValor aproximado por trapecio: %f \nvalor aprox por Simpson: %f\n", vr2, aprox2tra, aprox2simp) printf("\n------------------------\n\n") printf("Tercera integral, punto c \n") deff("y = f3(x)", "y = sin(x) ** 2") a3 = 0 b3 = %pi/3 vr3 = intg(a3, b3, f3) aprox3tra = metodoTrapecio(f3, a3, b3) aprox3simp = metodoSimpson(f3, a3, b3) printf("Valor real: %f \nValor aproximado por trapecio: %f \nvalor aprox por Simpson: %f\n", vr3, aprox3tra, aprox3simp) endfunction function ej2() printf("Punto a \n") deff("y = f1(x)", "y = 1/x") a1 = 1 b1 = 3 n1 = 4 vr1 = intg(a1, b1, f1) aprox1 = metodoTrapecioComp(f1, a1, b1, n1) ea1 = abs(aprox1 - vr1) er1 = ea1 / abs(vr1) printf("Valor real: %f | Valor aproximado por método compuesto de trapecio: %f\n", vr1, aprox1) printf("Error absoluto: %f | Error relativo: %f\n", ea1, er1) printf("\n------------------------\n\n") printf("Punto b \n") deff("y = f2(x)", "y = x ** 3") a2 = 0 b2 = 2 n2 = 4 vr2 = intg(a2, b2, f2) aprox2 = metodoTrapecioComp(f2, a2, b2, n2) ea2 = abs(aprox2 - vr2) er2 = ea2 / abs(vr2) printf("Valor real: %f | Valor aproximado por método compuesto de trapecio: %f\n", vr2, aprox2) printf("Error absoluto: %f | Error relativo: %f\n", ea2, er2) printf("\n------------------------\n\n") printf("Punto c \n") deff("y = f3(x)", "y = x * ((1 + x**2) ** (1/2))") a3 = 0 b3 = 3 n3 = 6 vr3 = intg(a3, b3, f3) aprox3 = metodoTrapecioComp(f3, a3, b3, n3) ea3 = abs(aprox3 - vr3) er3 = ea3 / abs(vr3) printf("Valor real: %f | Valor aproximado por método compuesto de trapecio: %f\n", vr3, aprox3) printf("Error absoluto: %f | Error relativo: %f\n", ea3, er3) printf("\n------------------------\n\n") printf("Punto d \n") deff("y = f4(x)", "y = sin(%pi * x)") a4 = 0 b4 = 1 n4 = 8 vr4 = intg(a4, b4, f4) aprox4 = metodoTrapecioComp(f4, a4, b4, n4) ea4 = abs(aprox4 - vr4) er4 = ea4 / abs(vr4) printf("Valor real: %f | Valor aproximado por método compuesto de trapecio: %f\n", vr4, aprox4) printf("Error absoluto: %f | Error relativo: %f\n", ea4, er4) printf("\n------------------------\n\n") printf("Punto e \n") deff("y = f5(x)", "y = x * sin(x)") a5 = 0 b5 = 2 * %pi n5 = 8 vr5 = intg(a5, b5, f5) aprox5 = metodoTrapecioComp(f5, a5, b5, n5) ea5 = abs(aprox5 - vr5) er5 = ea5 / abs(vr5) printf("Valor real: %f | Valor aproximado por método compuesto de trapecio: %f\n", vr5, aprox5) printf("Error absoluto: %f | Error relativo: %f\n", ea5, er5) printf("\n------------------------\n\n") printf("Punto f \n") deff("y = f6(x)", "y = x**2 * exp(x)") a6 = 0 b6 = 1 n6 = 8 vr6 = intg(a6, b6, f6) aprox6 = metodoTrapecioComp(f6, a6, b6, n6) ea6 = abs(aprox6 - vr6) er6 = ea6 / abs(vr6) printf("Valor real: %f | Valor aproximado por método compuesto de trapecio: %f\n", vr6, aprox6) printf("Error absoluto: %f | Error relativo: %f\n", ea6, er6) endfunction function ej3() printf("Punto a \n") deff("y = f1(x)", "y = 1/x") a1 = 1 b1 = 3 n1 = 4 vr1 = intg(a1, b1, f1) aprox1 = metodoSimpsonComp(f1, a1, b1, n1) ea1 = abs(aprox1 - vr1) er1 = ea1 / abs(vr1) printf("Valor real: %f | Valor aproximado por método compuesto de Simpson: %f\n", vr1, aprox1) printf("Error absoluto: %f | Error relativo: %f\n", ea1, er1) printf("\n------------------------\n\n") printf("Punto b \n") deff("y = f2(x)", "y = x ** 3") a2 = 0 b2 = 2 n2 = 4 vr2 = intg(a2, b2, f2) aprox2 = metodoSimpsonComp(f2, a2, b2, n2) ea2 = abs(aprox2 - vr2) er2 = ea2 / abs(vr2) printf("Valor real: %f | Valor aproximado por método compuesto de Simpson: %f\n", vr2, aprox2) printf("Error absoluto: %f | Error relativo: %f\n", ea2, er2) printf("\n------------------------\n\n") printf("Punto c \n") deff("y = f3(x)", "y = x * ((1 + x**2) ** (1/2))") a3 = 0 b3 = 3 n3 = 6 vr3 = intg(a3, b3, f3) aprox3 = metodoSimpsonComp(f3, a3, b3, n3) ea3 = abs(aprox3 - vr3) er3 = ea3 / abs(vr3) printf("Valor real: %f | Valor aproximado por método compuesto de Simpson: %f\n", vr3, aprox3) printf("Error absoluto: %f | Error relativo: %f\n", ea3, er3) printf("\n------------------------\n\n") printf("Punto d \n") deff("y = f4(x)", "y = sin(%pi * x)") a4 = 0 b4 = 1 n4 = 8 vr4 = intg(a4, b4, f4) aprox4 = metodoSimpsonComp(f4, a4, b4, n4) ea4 = abs(aprox4 - vr4) er4 = ea4 / abs(vr4) printf("Valor real: %f | Valor aproximado por método compuesto de Simpson: %f\n", vr4, aprox4) printf("Error absoluto: %f | Error relativo: %f\n", ea4, er4) printf("\n------------------------\n\n") printf("Punto e \n") deff("y = f5(x)", "y = x * sin(x)") a5 = 0 b5 = 2 * %pi n5 = 8 vr5 = intg(a5, b5, f5) aprox5 = metodoSimpsonComp(f5, a5, b5, n5) ea5 = abs(aprox5 - vr5) er5 = ea5 / abs(vr5) printf("Valor real: %f | Valor aproximado por método compuesto de Simpson: %f\n", vr5, aprox5) printf("Error absoluto: %f | Error relativo: %f\n", ea5, er5) printf("\n------------------------\n\n") printf("Punto f \n") deff("y = f6(x)", "y = x**2 * exp(x)") a6 = 0 b6 = 1 n6 = 8 vr6 = intg(a6, b6, f6) aprox6 = metodoSimpsonComp(f6, a6, b6, n6) ea6 = abs(aprox6 - vr6) er6 = ea6 / abs(vr6) printf("Valor real: %f | Valor aproximado por método compuesto de Simpson: %f\n", vr6, aprox6) printf("Error absoluto: %f | Error relativo: %f\n", ea6, er6) endfunction function ej4() deff("y = f(x)", "y = (x +1) ** (-1)") a = 0 b = 1.5 n = 10 vr = 0.9262907 aproxTra = metodoTrapecioComp(f, a, b, n) eaTra = abs(aproxTra - vr) erTra = eaTra / abs(vr) aproxSimp = metodoSimpsonComp(f, a, b, n) eaSimp = abs(aproxSimp - vr) erSimp = eaSimp / abs(vr) printf("Valor real: %f \n", vr) printf("-----------------------------------\n") printf("Valor aproximado por método compuesto del trapecio: %f\n", aproxTra) printf("Error absoluto: %f | Error relativo: %f \n", eaTra, erTra) printf("-----------------------------------\n") printf("Valor aproximado por método compuesto de Simpson: %f\n", aproxSimp) printf("Error absoluto: %f | Error relativo: %f \n", eaSimp, erSimp) endfunction
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; @Harness: disassembler ; @Result: PASS section .text size=0x0000002a vma=0x00000000 lma=0x00000000 offset=0x00000034 ;2**0 section .data size=0x00000000 vma=0x00000000 lma=0x00000000 offset=0x0000005e ;2**0 start .text: label 0x00000000 ".text": 0x0: 0xfb 0x98 cbi 0x1f, 3 ; 0x31 0x2: 0x03 0x98 cbi 0x00, 3 ; 0 0x4: 0x7b 0x98 cbi 0x0f, 3 ; 0x15 0x6: 0x3b 0x98 cbi 0x07, 3 ; 7 0x8: 0x1b 0x98 cbi 0x03, 3 ; 3 0xa: 0x0b 0x98 cbi 0x01, 3 ; 1 0xc: 0xf3 0x98 cbi 0x1e, 3 ; 0x30 0xe: 0xcb 0x98 cbi 0x19, 3 ; 0x25 0x10: 0x63 0x98 cbi 0x0c, 3 ; 0x12 0x12: 0x33 0x98 cbi 0x06, 3 ; 6 0x14: 0xab 0x98 cbi 0x15, 3 ; 0x21 0x16: 0x53 0x98 cbi 0x0a, 3 ; 0x10 0x18: 0x2b 0x98 cbi 0x05, 3 ; 5 0x1a: 0x13 0x98 cbi 0x02, 3 ; 2 0x1c: 0x7f 0x98 cbi 0x0f, 7 ; 0x15 0x1e: 0x78 0x98 cbi 0x0f, 0 ; 0x15 0x20: 0x7b 0x98 cbi 0x0f, 3 ; 0x15 0x22: 0x79 0x98 cbi 0x0f, 1 ; 0x15 0x24: 0x7e 0x98 cbi 0x0f, 6 ; 0x15 0x26: 0x7d 0x98 cbi 0x0f, 5 ; 0x15 0x28: 0x7a 0x98 cbi 0x0f, 2 ; 0x15 start .data:
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clc; clear all; fr1=imread('trees.tif'); fr2=rgb2gray(fr1) [r1 c1]=size(fr); if(r1>c1) fr2=imresize(fr2,[c1,c1]); a=c1; else fr2=imresize(fr2,[r1,r1]); a=r1; end fr=double(fr2); for i=0:a-1 for j=0:a-1 if(i==0) then alpha=sqrt(1/a); else alpha=sqrt(2/a); end z=((2*j)+1); u=i*%pi; c(i+1,j+1)=alpha*(cos((z*u)/(2*a))); end end F=c*fr*c'; Fo=c'*F*c; subplot(1,4,1) title('Orginal image'); imshow(fr1); subplot(1,4,2) title('Gray image'); imshow(fr2); subplot(1,4,3) title('DCT image'); imshow(uint8(F)); subplot(1,4,4) title('IDCT image'); imshow(uint8(Fo));
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//Example4.1// rCu=0.128;//nm //atomic radius of copper rNi=0.125;//nm //atomic radius of nickel d=((rCu-rNi)/rCu)*100 mprintf("d = %f percent (<15percent)",d)
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clc // Fundamental of Electric Circuit // Charles K. Alexander and Matthew N.O Sadiku // Mc Graw Hill of New York // 5th Edition // Part 1 : DC Circuits // Chapter 2: Basic Laws // Example 2 - 12 clear; clc; close; // // Given data V = 12.00; R4 = 4.00; R6 = 6.00; R3 = 3.00; // // Calculations // Calculations RP1 RP1 = (R3*R6)/(R3 + R6); // Calculations Total Current I = V/(RP1+R4); // Calculations Vo Vo = (RP1/(RP1+R4))*V // Calcukations Io Io = Vo/R3; // Calculatiuons power dissipated in the 3 ohm resistor Po = Vo * Io; // // Display the result disp("Example 2-12 Solution : "); printf(" \n Vo : Voltage in the 3 Ohm Resistor = %.3f Volt ", Vo); printf(" \n Io : Current in the 3 Ohm Resistor = %.3f Ampere ", Io); printf(" \n Po : Power Dissipated in the 3 Ohm Resistor = %.3f Watt ", Po);
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errcatch(-1,"stop");mode(2);// Example 7.11, page no-167 r1=1.7*10^-8 t2=300 t1=700+273 r2=r1*sqrt((t1/t2)) printf("The resistivityy of the copper wire is %.4f*10^-8 Ohm-m",r2*10^8) exit();
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// Scilab Code Ex15.5: Page-324 (2010) T = 1; // For simplicity assume temperature to be unity, K R = 1; // For simplicity assume molar gas constant to be unity, J/mol/K theta_E = T; // Einstein temperature, K C_V = 3*R*(theta_E/T)^2*exp(theta_E/T)/(exp(theta_E/T)-1)^2; // Einstein lattice specific heat, J/mol/K printf("\nThe Einstein lattice specific heat, C_v = %4.2f X 3R", C_V/3); // Result // The Einstein lattice specific heat, C_v = 0.92 X 3R
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clc; //page 558 //problem 11.3 //Prior probability of s1 P_s1 = 0.4 P_s1 = 0.4; //Prior probability of s2 P_s2 = 1 - P_s1 P_s2 = 1 - P_s1; //Voltage level V1 = 1 V1 = 1; //Voltage level V2 = -1 V2 = -1; //Part a //Noise Variance sigma1 = 10^-3 sigma1 = 10^-3; //Descision Threshold lambda1 lambda1 = (V1+V2)/2 + (sigma1)*log(P_s2/P_s1)/(V1-V2); //Probability of error Pe Pe = 0.5*(2*P_s1 - P_s1*erfc(((V2-V1)/(2*sigma1*2^0.5)) + (sigma1)*log(P_s2/P_s1)/((V1-V2)*2^0.5))); disp('The decision threshold is '+string(lambda1)+' V'); disp('The probability of error is approximately '+string(Pe)); //Part b //Noise Variance sigma2 = 10^-1 sigma2 = 10^-1; //Descision Threshold lambda2 lambda2 = (V1+V2)/2 + (sigma2)*log(P_s2/P_s1)/(V1-V2); //Probability of error Pe Pe1 = 0.5*(2*P_s1 - P_s1*erfc(((V2-V1)/(2*sigma2*2^0.5)) + (sigma2)*log(P_s2/P_s1)/((V1-V2)*2^0.5))); //In the textbook Pe has been calulated to be 0.0021 because of the use of a very high precision calculator, unfortunately in scilab the function erfc approximates the output value to a larger extent due to which an exact value cannot be obtained. disp('The decision threshold is '+string(lambda2)+' V'); disp('The probability of error is approximately '+string(Pe1));
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//chapter-6,Example6_5,pg 494 l=1*10^-2//axial length of plates D=22*10^-2//distance between centre of plate and screen Vap=1.3*10^3//acceleration mode voltage del=1*10^-3//output in mm Sd=500*l*(D/(del*Vap))//deflection senstivity printf("deflection sensitivity\n") printf("Sd=%.2f mm/V",Sd)
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global GLOBAL_U; global GLOBAL_DT; global GLOBAL_HIST; getf 'lib/arm2-mpl/modele.sci' getf 'lib/modules.sci' getf 'lib/simulation.sci' getf 'lib/plot.sci' getf 'arm2Control.sci' // vector x=(q,qdot) // Initial Values // arm2ModelInit(); GLOBAL_DT=0.1; q0=zeros(1,arm2Ndof()); T=20.0; simulationLoop(q0,T,arm2JointControl, arm2Model,arm2Ndof()); simulationPlot(1); simulationPlot(2);
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//Chapter 12 Thermodynamics Thermodynamic chemistry clc; clear; //Initialisation of Variables H= -66.36 //kcal H1= 12.5 //k cal H2= -68.317 //kcal //CALCULATIONS H3= H-H1-H2 //RESULTS mprintf("Heat of reaction= %.2f cal",H3)
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function y=interpoly(tab); // calcula o polinomio interpolador pelo metodo de lagrange; getf("lagrangep.sci"); [l,n]=size(tab); x=tab(1,:); for i=1:n, L(i)=lagrangep(x,i); end; p=0; for i=1:n, p=p + tab(2,i)*L(i); end; y=p; endfunction
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clc; I=300*10^-3; //current n Ampere t=60; //time in second e=1.6*10^-19; //chatge on electron in C q=I*t; //calculating charge n=q/e; //calculating no of electrons disp(n,"No. of electrons = "); //displaying result
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// exa 7.1 Pg 195 clc;clear;close; // Given Data P=20;// kW N=240;// rpm tau_s=45;// MPa tau_b=30;// MPa sigma_b=60;// MPa sigma_cs=2*tau_s;// MPa tau_ci=15;// MPa //Tmax=1.25*Tm mu=0.15;// coefficient of friction //SHAFT DIAMETER // P= 2*%pi*N*Tm/60/1000 Tm=P/(2*%pi*N/60/1000);// N.m Tmax=1.25*Tm;// N.m // %pi*d**3*tau_s/16= Tmax d=(Tmax/(%pi*tau_s/16)*1000)**(1/3);// mm printf('shaft diameter = %.2f mm. Use d = 50 mm.',d) d=50;// mm // HUB DIAMETER // Tmax=%pi/16*((d1**4-d**4)/d1)*tau_h tau_h=tau_ci;// MPa //d1*(Tmax/(%pi/16)/tau_h)-d1**4=d**4 -- eqn(1) Tmax=Tmax*1000;// N.mm p=[1 0 0 -Tmax/(%pi*tau_h/16) -d**4] ;// polynomial coefficients from eqn(1) d1=roots(p);// roots of poly d1=d1(1);// mm (taking +ve value) d1=100;// mm (empirically adopted) t1=(d1-d)/2;// mm (thickness of hub) printf('\n thickness of hub = %.f mm',t1) d4=d+t1;// mm (diameter of recess in flanges) printf('\n diameter of recess in flanges = %.f mm',d4) d3=4*d;// mm (outside diameter of protecting flange) printf('\n outside diameter of protecting flange = %.f mm',d3) // Hub length b=d/4;// mm (width of key) l=1.5*d;// mm (length of key) printf('\n width of key = %.1f mm. Use b = 15 mm',b) b=15;// mm printf('\n length of key = %.f mm.',l) t=b;// mm (thickness for square key) printf('\n thickness for square key = %.f mm',t) printf('\n Hub length = %.f mm',l) //Number of bolts n=floor(4*d/150+3);// no. of bolts printf('\n Number of bolts = %.f',n) // Bolt diameter r2=1.5*d;// mm F=Tmax/r2/n;// N //%pi/4*db**2*tau_b=F db=sqrt(F/(%pi/4*tau_b));// mm printf('\n Bolt diameter = %.2f mm. Use db=12 mm',db) bolt_dia=db;//mm // Bolt diameter based on Tensile load r3=d3/2;// mm r4=d4/2;// mm rf=2/3*((r3**3-r4**3)/(r3**2-r4**2));// mm //Tmax=n*mu*Pi*rf;// N Pi=Tmax/(n*mu*rf);// N // Pi=%pi/4*db**2*sigma_t sigma_t=sigma_b;// MPa db=sqrt(Pi/(%pi/4*sigma_t));// mm printf('\n Bolt diameter (based on Tensile load) = %.1f mm. Use db=15 mm',db) db=15;// mm (adopted) // Flange thickness t2=0.5*t1+6;// mm (empirically) printf('\n Flange thickness = %.1f mm. Use t=20 mm',t2) t2=20;// mm (adopted) //F=n*db*t2*sigma_c sigma_ci=F/n/db/t2;// MPa //2*%pi*d1**2*tau*t2/4=Tmax tau=Tmax/(2*%pi*d1**2*t2/4);// MPa printf('\n permissible bearing stress in flange = %.2f MPa < 30 MPa',sigma_ci) printf('\n shearing of the flange at the junction with hub = %.2f MPa < 15 MPa.',tau) printf(' Values are acceptable.') // Check for crushing of bolt //n*db*t2*sigma_cb*d2/2=Tmax d2=d1+d;// mm db=bolt_dia;//mm sigma_cb=Tmax/(n*db*t2*d2/2);// MPa printf('\n permissible crushing strength of bolts = %.1f MPa < 60 MPa.',sigma_cb) printf(' Hence design is safe.') // Thickness of protecting flange t3=0.5*t2;// mm printf('\n Thickness of protecting flange = %.f mm', t3) // Hub overlap ho=3;// mm (min) printf('\n Hub overlap = %.f mm (min)',ho) //Note - Answer for **Bolt diameter based on Tensile load** is calculated wrong in the textbook(error in Pi calculation).
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clear all; clc; //This numerical is Ex 2_2E,page 30. P_ho=30//hydraulic output power Q=5//flow rate at best efficiency point g=32.2 rho=1.938 Hp=320 N=600 delta_pm=P_ho*550/Q printf("Value of discharge head P_m %g lb/ft^2",delta_pm) Hm=delta_pm/(rho*g) printf("\n Value of H_m=%0.2f ft",Hm) disp("From the similarity law, H_p/H_m=((Np/Nm)^2)*((Dp/Dm)^2)") //let x=Hp/Hm x=Hp/Hm printf(" H_p/H_m =%0.2f",x) disp("Thus (N_p/N_m)*(D_p/D_m) is equal to 2.46") disp("Also the flow rate Q_p/Q_m=(N_p/N_m)*(D_p/D_m)^3") z=350/5//value of Qp/Qm printf(" Hence the value of Q_p/Q_m is equal to %g",z) disp("Thus D_p/D_m=5.33 ,N_p/N_m=0.461") //Let y=Np/Nm=0.461 y=0.461 N_m=N/y printf(" Thus N_m = %g rpm",N_m)
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clear; clc; disp('Example 8.3'); // aim : To determine // the stoichiometric mass of air // the products of combustion both by mass and as percentage // Given values C = .82;// mass composition C H2 = .12;// mass composition of H2 O2 = .02;// mass composition of O2 S = .01;// mass composition of S N2 = .03;// mass composition of N2 // solution // for 1kg fuel mo2 = 8/3*C+8*H2-O2+S*1;// total mass of O2 required, [kg] sa = mo2/.232;// stoichimetric air, [kg] mprintf('\n The stoichiometric mass of air is = %f kg/kg fuel\n',sa); // for one kg fuel mCO2 = C*11/3;// mass of CO2 produced, [kg] mH2O = H2*9;// mass of H2O produced, [kg] mSO2 = S*2;// mass of SO2 produce, [kg] mN2 = C*8.84+H2*26.5-O2*.768/.232+S*3.3+N2;// mass of N2 produced, [kg] mt = mCO2+mH2O+mSO2+mN2;// total mass of product, [kg] x1 = mCO2/mt*100;// %age mass composition of CO2 produced x2 = mH2O/mt*100;// %age mass composition of H2O produced x3 = mSO2/mt*100;// %age mass composition of SO2 produced x4 = mN2/mt*100;// %age mass composition of N2 produced mprintf('\n CO2 produced = %f kg/kg fuel, percentage composition = %f,\n H2O produced = %f kg/kg fuel, percentage composition = %f,\n SO2 produced = %f kg/kg fuel, percentage composition = %f,\n N2 produced = %f kg/kg fuel, percentage composition = %f',mCO2,x1,mH2O,x2,mSO2,x3,mN2,x4); // End
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M2 = 2.197; P2P0 = 0.0939; T2T0 = 0.5089; P0 = 1000; T0 = 360; g = 1.4; R = 0.287; P2 = P2P0*P0; T2 = T2T0*T0; c2 = sqrt(g*R*T2*1000); V2 = c2*M2; // for air P_P0 = 0.528; T_T0 = 0.833; // T_ == T* P_ = P_P0*P0; T_ = T_T0*T0; rho_ = P_/(R*T_); V_ = sqrt(g*R*T_*1000); At = 500e-06; // throat area w = At*V_*rho_; disp("When divergent section act as a nozzle") disp("kg/s",w,"Maximum flow rate of air is") disp("K",T2,"Static temperature is") disp("kPa",P2,"Static Pressure is") disp("m/s",V2,"Velocity at the exit from the nozzle is") // Part (b) Mb = 0.308; P2P0b = 0.936; T2T0b = 0.9812; P2b = P2P0b*P0; T2b = T2T0b*T0; c2b = sqrt(g*R*T2b*1000); V2b = c2b*Mb; disp("When divergent section act as a diffuser") disp("kg/s",w,"Maximum flow rate of air is") disp("K",T2b,"Static temperature is") disp("kPa",P2b,"Static Pressure is") disp("m/s",V2b,"Velocity at the exit from the nozzle is")
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clc //Initialization of variables r1=0 //multiply by a0 r2=1 //multiply by a0 //calculations ratio=%e^r1 /%e^(-2*r2) //results printf("It is more propable that electron would be found %.2f times more at r1",ratio)
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// Splitting a polynomial B(z) // 10.3 // Splits a polynomial B into good, nonminimum with // positive real & with negative real parts. // All are returned in polynomial form. // Gain is returned in Kp and delay in k. function [Kp,k,Bg,Bnmp,Bm] = imcsplit(B,polynomial) k = 0; Kp = 1; if(polynomial) rts = roots(B); Kp = sum(B)/sum(coeff(poly(rts,'z'))); else rts = B; end Bg = 1; Bnmp = 1; Bm = 1; for i = 1:length(rts), rt = rts(i); if rt == 0, k = k+1; elseif (abs(rt)<1 & real(rt)>=0) Bg = convol(Bg,[1 -rt]); elseif (abs(rt)>=1 & real(rt)>=0) Bnmp = convol(Bnmp,[1 -rt]); else Bm = convol(Bm,[1 -rt]); end end
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clear; clc; h=[0 1 1 1 1 -1 -1 0]; x=[0 0 1 0 -1 0]; nx=0:length(x)-1; nh=-1:length(h)-2; //y=convol(x,h); ny=min(nx)+min(nh):max(nx)+max(nh); //or x[n]=delta[n-2]-delta[n-4] therefore y[n]=h[n-2]-h[n-4] n1=nh+2; n2=nh+4; ny=min(nx)+min(nh):max(nx)+max(nh); j=1; k=1; h2=zeros(ny); h4=h2; a=find(ny==n1(1)) for j=1:length(nh) h2(a+j-1)=h(j) end a=find(ny==n2(1)) for j=1:length(nh) h4(a+j-1)=h(j) end y=h2-h4; figure a=gca(); a.x_location="origin"; plot2d3(nh,h) plot(nh,h,'r.') xtitle('Impulse Response','n','h[n]'); a.children.children.thickness = 3; a.children.children.foreground= 2; a.y_location="left"; figure a=gca(); plot2d3(nx,x) plot(nx,x,'r.') a.y_location="left"; a.x_location="origin"; xtitle('Input Response','n','x[n]'); a.children.children.thickness = 3; a.children.children.foreground= 2; figure a=gca(); plot2d3(ny,y) plot(ny,y,'r.') a.x_location="origin"; a.y_location="left"; xtitle('Output Response','n','y[n]'); a.children.children.thickness = 3; a.children.children.foreground= 2;
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example5_5.sce
//clc() B = -2.19 * 10^-4;//m^3/mol C = -1.73 * 10^-8;//m^6/mol^2 P = 10;//bar T = 500;//K //virial equation is given as, Z = PV/RT = 1 + B/V + C/V^2 //V = (RT/P)*(1 + B/V + C/V^2) // now by assuming different values for V on RHS and checking for corresponding V on LHS, we have to assume such value of V on RHS by which we get the same value for LHS V //by trial and error we get, V = 3.92 * 10^-3;//m^3 disp("m^3",V,"Molar volume of methanol = ")
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clear //Given u1=1 u2=1.5 R=1 //Calculation x=(u1+u2)/(u2-u1) //Result printf("\n Distance of the object is %0.3f R", x)
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clc; //Example 6.3 //Page no 231 //Solution fbfo=10; //MHz //(a) disp("(a)The solution is identical to that provieded in example 6-2 "); Fi=30-20; //MHz Ff=30.005-20; //MHz disp('MHz',Ff,"MHz to",Fi,"Fif = "); disp("The demodulated information signal spectrum is simply the difference between the intermediate frequency band and the BFO frequency"); fm1=Fi-fbfo; fm2=Ff-fbfo; disp('kHz',(fm2*(10^3)),"kHz to",fm1,"fm = "); //(b) disp("(b) "); FI=30.0006-20.0004; //MHz FF=30.0056-20.0004; //MHZ disp('MHz',FF,"MHz to",FI,"Fif = "); disp("The BFO frequency will also automatically adjust proportionally to 10.0002MHz, producing a demodulated information signal of "); Fm=FI-10.0002; //MHz Fm1=FF-10.0002; //MHz disp('kHz',(Fm1*(10^3)),"kHz to",Fm,"fm = ");
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A_Ex4_2.sce
// Chapter 4 AdditionalExample 2 //============================================================================== clc; clear; // input data lamda1 = 0.022*10^-10; // wavelength of scatterd X-rays in m theta = 45; // scatterring angle in degrees h = 6.625*10^-34 // plancks constant mo = 9.11*10^-31 // mass in Kg c = 3*10^8; // vel. of light // Calculatioms // from Compton theory ,Compton shift is given by // lamda' - lamda = (h/(mo*c))*(1-cosθ) theta_r = theta*%pi/180; // degree to radian conversion lamda = lamda1-( (h/(mo*c))*(1-cos(theta_r))) // incident Wavelength // Output mprintf('Wavelength of incident beam = %3.4f Å',lamda*10^10); //==============================================================================
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ex_2_3.sce
// Example 2.3: to prove clc; clear; close; Z=1;//assume n1=1;//orbit 1 n2=2;//orbit 2 n3=3;//orbit 3 e1=((-13.6*Z)/(n1^2));//energy for the first orbit e2=((-13.6*Z)/(n2^2));//energy for the second orbit e3=((-13.6*Z)/(n3^2));//energy for the third orbit e31=e3-e1;//energy emitted by an electron jumping from orbit nuber 3 to orbit nimber 1 e21=e2-e1;//energy emitted by an electron jumping from orbit nuber 2 to orbit nimber 1 re=e31/e21;//ratio of energy disp(re,"ratio of energy for an electron to jump from orbit 3 to orbi 1 and from orbit 2 to orbit 1 is 32/27")
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Ex3_11.sce
//example-3.11 //page no-93 //given //atomic radius in a FCC crystal is r=1.246 //A //side of the unit cell a=4*r/sqrt(2) //A //part(I) h1=2 k1=0 l1=0 d1=a/sqrt((h1)^2+(k1)^2+(l1)^2) //A //part (II) h2=2 k2=2 l2=0 d2=a/sqrt((h2)^2+(k2)^2+(l2)^2) //A //part (III) h3=1 k3=1 l3=1 d3=a/sqrt((h3)^2+(k3)^2+(l3)^2) //A printf ("the inteplaners spacing will be d1,d2 and d3 are %f A,%f A and %f A ",d1,d2,d3)