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what you should be familiar with before taking this lesson square roots special products of binomials what you will learn in this lesson so far you have solved linear equations , which include constant terms—plain numbers—and terms with the variable raised to the first power , $ x^1=x $ . you will now learn how to solv... | } \\ x & amp ; =\pm 6\end { align } $ let 's review what went on in this solution . what the $ \pm $ sign means note that every positive number has two square roots : a positive square root and a negative square root . for example , both $ 6 $ and $ -6 $ , when squared , equal $ 36 $ . | what is a perfect square ? |
what you should be familiar with before taking this lesson square roots special products of binomials what you will learn in this lesson so far you have solved linear equations , which include constant terms—plain numbers—and terms with the variable raised to the first power , $ x^1=x $ . you will now learn how to solv... | now solve a few similar equations on your own . solving $ ( x-2 ) ^2=49 $ and similar equations here is how the solution of the equation $ ( x-2 ) ^2=49 $ goes : $ \begin { align } ( x-2 ) ^2 & amp ; =49\\ \sqrt { ( x-2 ) ^2 } & amp ; =\pm\sqrt { 49 } & amp ; & amp ; \text { take the square root . } \\ x-2 & amp ; =\pm... | how does the equation x^2+2 ( 4 ) ( x ) +4^2=9 factor into the equation ( x+4 ) ^2=9 ? |
what you should be familiar with before taking this lesson square roots special products of binomials what you will learn in this lesson so far you have solved linear equations , which include constant terms—plain numbers—and terms with the variable raised to the first power , $ x^1=x $ . you will now learn how to solv... | } \\ x & amp ; =\pm 6\end { align } $ let 's review what went on in this solution . what the $ \pm $ sign means note that every positive number has two square roots : a positive square root and a negative square root . for example , both $ 6 $ and $ -6 $ , when squared , equal $ 36 $ . | in other words , how do you find the vertex of a parabola when given the formula , using square roots ? |
what you should be familiar with before taking this lesson square roots special products of binomials what you will learn in this lesson so far you have solved linear equations , which include constant terms—plain numbers—and terms with the variable raised to the first power , $ x^1=x $ . you will now learn how to solv... | now solve a few similar equations on your own . why we should n't expand the parentheses let 's go back to our example equation , $ ( x-2 ) ^2=49 $ . suppose we wanted to expand the parentheses there . | how comes when i press somin it do n't let me press it ? |
what you should be familiar with before taking this lesson square roots special products of binomials what you will learn in this lesson so far you have solved linear equations , which include constant terms—plain numbers—and terms with the variable raised to the first power , $ x^1=x $ . you will now learn how to solv... | } \\ x & amp ; =\pm 6\end { align } $ let 's review what went on in this solution . what the $ \pm $ sign means note that every positive number has two square roots : a positive square root and a negative square root . for example , both $ 6 $ and $ -6 $ , when squared , equal $ 36 $ . | how is square rooting a prime number such as 10 done giving the wavy = signs ? |
what you should be familiar with before taking this lesson square roots special products of binomials what you will learn in this lesson so far you have solved linear equations , which include constant terms—plain numbers—and terms with the variable raised to the first power , $ x^1=x $ . you will now learn how to solv... | sometimes we have to isolate the squared term before taking its root . for example , to solve the equation $ 2x^2+3=131 $ we should first isolate $ x^2 $ . we do this exactly as we we would isolate the $ x $ term in a linear equation . | how can i solve an equation that later turns into a fraction ? |
what you should be familiar with before taking this lesson square roots special products of binomials what you will learn in this lesson so far you have solved linear equations , which include constant terms—plain numbers—and terms with the variable raised to the first power , $ x^1=x $ . you will now learn how to solv... | } \\ x & amp ; =\pm 6\end { align } $ let 's review what went on in this solution . what the $ \pm $ sign means note that every positive number has two square roots : a positive square root and a negative square root . for example , both $ 6 $ and $ -6 $ , when squared , equal $ 36 $ . | how do you factor a perfect square ? |
what you should be familiar with before taking this lesson square roots special products of binomials what you will learn in this lesson so far you have solved linear equations , which include constant terms—plain numbers—and terms with the variable raised to the first power , $ x^1=x $ . you will now learn how to solv... | what you should be familiar with before taking this lesson square roots special products of binomials what you will learn in this lesson so far you have solved linear equations , which include constant terms—plain numbers—and terms with the variable raised to the first power , $ x^1=x $ . you will now learn how to solv... | why do we have to put that plus or minus ? |
what you should be familiar with before taking this lesson square roots special products of binomials what you will learn in this lesson so far you have solved linear equations , which include constant terms—plain numbers—and terms with the variable raised to the first power , $ x^1=x $ . you will now learn how to solv... | why we should n't expand the parentheses let 's go back to our example equation , $ ( x-2 ) ^2=49 $ . suppose we wanted to expand the parentheses there . after all , this is what we do in linear equations , right ? | how is the parentheses expanded ? |
what you should be familiar with before taking this lesson square roots special products of binomials what you will learn in this lesson so far you have solved linear equations , which include constant terms—plain numbers—and terms with the variable raised to the first power , $ x^1=x $ . you will now learn how to solv... | now solve a few similar equations on your own . solving $ ( x-2 ) ^2=49 $ and similar equations here is how the solution of the equation $ ( x-2 ) ^2=49 $ goes : $ \begin { align } ( x-2 ) ^2 & amp ; =49\\ \sqrt { ( x-2 ) ^2 } & amp ; =\pm\sqrt { 49 } & amp ; & amp ; \text { take the square root . } \\ x-2 & amp ; =\pm... | what is the standard form of 9x^2=4 ? |
what you should be familiar with before taking this lesson square roots special products of binomials what you will learn in this lesson so far you have solved linear equations , which include constant terms—plain numbers—and terms with the variable raised to the first power , $ x^1=x $ . you will now learn how to solv... | } \\ x & amp ; =\pm 8\end { align } $ now solve a few similar equations on your own . challenge question | in the challenge question , what if , when you factor the quadratic , it is n't a square root ? |
what you should be familiar with before taking this lesson square roots special products of binomials what you will learn in this lesson so far you have solved linear equations , which include constant terms—plain numbers—and terms with the variable raised to the first power , $ x^1=x $ . you will now learn how to solv... | in contrast , taking the square roots of expressions like $ x^2 $ or $ ( x-2 ) ^2 $ gives us nice expressions like $ x $ or $ ( x-2 ) $ . therefore , it 's actually helpful in quadratic equations to keep things factored , because this allows us to take the square root . solving $ 2x^2+3=131 $ and similar equations not ... | how does one use the quadratic formula ? |
what you should be familiar with before taking this lesson square roots special products of binomials what you will learn in this lesson so far you have solved linear equations , which include constant terms—plain numbers—and terms with the variable raised to the first power , $ x^1=x $ . you will now learn how to solv... | however , unlike the other operations , when we take the square root we must remember to take both the positive and the negative square roots . now solve a few similar equations on your own . solving $ ( x-2 ) ^2=49 $ and similar equations here is how the solution of the equation $ ( x-2 ) ^2=49 $ goes : $ \begin { ali... | in example 2 under the solving 2x^2+3=131 and similar equations , do you divide the 2 before the x before or after you take the square root ? |
what you should be familiar with before taking this lesson square roots special products of binomials what you will learn in this lesson so far you have solved linear equations , which include constant terms—plain numbers—and terms with the variable raised to the first power , $ x^1=x $ . you will now learn how to solv... | but this gives us $ \sqrt { x } $ , which is not helpful . in contrast , taking the square roots of expressions like $ x^2 $ or $ ( x-2 ) ^2 $ gives us nice expressions like $ x $ or $ ( x-2 ) $ . therefore , it 's actually helpful in quadratic equations to keep things factored , because this allows us to take the squa... | is x^2 the same as x raised to the second power ? |
what you should be familiar with before taking this lesson square roots special products of binomials what you will learn in this lesson so far you have solved linear equations , which include constant terms—plain numbers—and terms with the variable raised to the first power , $ x^1=x $ . you will now learn how to solv... | } \\ x & amp ; =\pm 6\end { align } $ let 's review what went on in this solution . what the $ \pm $ sign means note that every positive number has two square roots : a positive square root and a negative square root . for example , both $ 6 $ and $ -6 $ , when squared , equal $ 36 $ . | how did we factor the perfect square so small ? |
what you should be familiar with before taking this lesson square roots special products of binomials what you will learn in this lesson so far you have solved linear equations , which include constant terms—plain numbers—and terms with the variable raised to the first power , $ x^1=x $ . you will now learn how to solv... | } \\ x & amp ; =\pm 8\end { align } $ now solve a few similar equations on your own . challenge question | how is there more than 1 question ? |
what is discrimination ? everywhere we look , we see differences in wealth , power , and status . some groups have higher status and greater privilege than others . this inequality in the system is what we call social stratification . in this unequal social system , there is often unfair treatment directed against cert... | in recent years , there has been a movement to include third gender categories . third gender is defined as a gender category for those who do not identify with either male or female gender categories . many countries now recognize a third gender on their census , including india and nepal ! | is there any scientific basis behind all of these gender identities ? |
what is discrimination ? everywhere we look , we see differences in wealth , power , and status . some groups have higher status and greater privilege than others . this inequality in the system is what we call social stratification . in this unequal social system , there is often unfair treatment directed against cert... | these types of jobs are often viewed as those that require higher skills and qualifications or higher-level jobs . we can see from the above table that women ’ s average incomes are lower than men ’ s in nearly all job categories . however , the gender gap is further strengthened by an ethnic salary gap . | how come this does n't explain the fact the men generally tend to work longer hours and are more likely to work overtime than women because of the different life choices men and women make ? |
what is command of evidence ? your “ command of evidence ” subscore on the sat is based on your performance on specific questions from both the reading test and the writing and language test . a total of 18 questions — 10 from the reading test and 8 from the writing and language test — contribute to the command of evid... | if , for example , you claim that the author relies heavily on appeals to emotion , you will have to use evidence from the passage to support that claim ! top tip : practice the essay to improve your reading score ! another good reason to take the sat essay is that while you prepare , you ’ ll be practicing many of the... | what are some ways to improve my essay writing and make it stand out ? |
what is command of evidence ? your “ command of evidence ” subscore on the sat is based on your performance on specific questions from both the reading test and the writing and language test . a total of 18 questions — 10 from the reading test and 8 from the writing and language test — contribute to the command of evid... | example : “ which of the following statements best describes the connection between the data in the table and the author ’ s conclusion about rainbows ? ” top tip : what ’ s the story ? try to “ read ” graphics and draw conclusions just like you read and interpret written texts . ask yourself : is there a title ? | what is the best way to read passages on sat effectively ? |
what is command of evidence ? your “ command of evidence ” subscore on the sat is based on your performance on specific questions from both the reading test and the writing and language test . a total of 18 questions — 10 from the reading test and 8 from the writing and language test — contribute to the command of evid... | don ’ t be distracted by choices that sound the smartest or the most well-written - every choice in questions like these is likely to be fine grammatically . command of evidence and the sat essay although your score on the optional essay does not contribute to your command of evidence subscore , the essay ’ s analysis ... | should i take the essay even if it is optional ? |
what is command of evidence ? your “ command of evidence ” subscore on the sat is based on your performance on specific questions from both the reading test and the writing and language test . a total of 18 questions — 10 from the reading test and 8 from the writing and language test — contribute to the command of evid... | these questions are designed to see whether you understand how authors make use of evidence to develop and support their claims and points . why does evidence matter ? command of evidence questions on the sat are designed to help you practice a critically important skill . | is the evidence part really important ? |
what is command of evidence ? your “ command of evidence ” subscore on the sat is based on your performance on specific questions from both the reading test and the writing and language test . a total of 18 questions — 10 from the reading test and 8 from the writing and language test — contribute to the command of evid... | a total of 18 questions — 10 from the reading test and 8 from the writing and language test — contribute to the command of evidence subscore . these questions are designed to see whether you understand how authors make use of evidence to develop and support their claims and points . why does evidence matter ? | what is an easier way to understand the passages ? |
what is command of evidence ? your “ command of evidence ” subscore on the sat is based on your performance on specific questions from both the reading test and the writing and language test . a total of 18 questions — 10 from the reading test and 8 from the writing and language test — contribute to the command of evid... | if you have some idea of the kind of answer you ’ re looking for before you read the choices , then you ’ ll have an edge when you start ruling out bad choices using process of elimination . the writing and language test you ’ ll find two types of questions on the writing and language test that count towards your comma... | is writing the essay portion of the sat similar to the gateway , milestones , or any other required writing assessment ? |
what is command of evidence ? your “ command of evidence ” subscore on the sat is based on your performance on specific questions from both the reading test and the writing and language test . a total of 18 questions — 10 from the reading test and 8 from the writing and language test — contribute to the command of evid... | don ’ t be distracted by choices that sound the smartest or the most well-written - every choice in questions like these is likely to be fine grammatically . command of evidence and the sat essay although your score on the optional essay does not contribute to your command of evidence subscore , the essay ’ s analysis ... | when writing an essay , instead of writing because , or i think that , or i believe that , what other word phrases i can include in my essay to make my argument more convincing ? |
what is command of evidence ? your “ command of evidence ” subscore on the sat is based on your performance on specific questions from both the reading test and the writing and language test . a total of 18 questions — 10 from the reading test and 8 from the writing and language test — contribute to the command of evid... | the writing and language test you ’ ll find two types of questions on the writing and language test that count towards your command of evidence subscore : 1 . interpreting data presented in informational graphics : use data in infographics when you ’ re revising passages to make the passage more accurate , clear , prec... | what are ways to really create an argumentative essay to make it convincing ? |
suppose we want to find the area under this curve : we may struggle to find the exact area , but we can approximate it using rectangles : and our approximation gets better if we use more rectangles : these sorts of approximations are called riemann sums , and they 're a foundational tool for integral calculus . our goa... | in general , if the function is always increasing or always decreasing on an interval , we can tell whether the riemann sum approximation will be an overestimation or underestimation based on whether it 's a left or a right riemann sum . direction | left riemann sum | right riemann sum : - | : - : | : - : increasing | ... | if you take the left and right riemann sum then take the average of the two , how close to the actual area will the result be ? |
suppose we want to find the area under this curve : we may struggle to find the exact area , but we can approximate it using rectangles : and our approximation gets better if we use more rectangles : these sorts of approximations are called riemann sums , and they 're a foundational tool for integral calculus . our goa... | try this exercise . riemann sums sometimes overestimate and other times underestimate riemann sums are approximations of the area under a curve , so they will almost always be slightly more than the actual area ( an overestimation ) or slightly less than the actual area ( an underestimation ) . want more practice ? | also because of the curve , would the result of increasing function always be more than the actual area and opposite for the decreasing ? |
suppose we want to find the area under this curve : we may struggle to find the exact area , but we can approximate it using rectangles : and our approximation gets better if we use more rectangles : these sorts of approximations are called riemann sums , and they 're a foundational tool for integral calculus . our goa... | suppose we want to find the area under this curve : we may struggle to find the exact area , but we can approximate it using rectangles : and our approximation gets better if we use more rectangles : these sorts of approximations are called riemann sums , and they 're a foundational tool for integral calculus . our goa... | if on of the problems was asking to find the area using equal width trapezoid instead of rectangles , how would be able to solve the problem ? |
visually audacious a compulsive experimenter , turner was a thorny devil ; a painter whose work ranks among the most visually audacious that any british artist has ever produced and yet , across the age groups , across the social divides , he is still the country ’ s most celebrated and indeed most cherished artist . w... | turner and claude in its composition , turner draws heavily on the work of the seventeenth century french painter claude lorrain , an influence that was not lost on some of the more sympathetic contemporary reviewers : “ not even claude in his happiest efforts , has exceeded the brilliant composition before us , ” wrot... | what is the phonetic pronunciation of `` repoussoir '' ? |
renaissance the word renaissance is generally defined as the rebirth of classical antiquity in italy in the fifteenth and sixteenth centuries . seems simple enough , but the word “ renaissance ” is actually fraught with complexity . scholars argue about exactly when the renaissance happened , where it took place , how ... | renaissance the word renaissance is generally defined as the rebirth of classical antiquity in italy in the fifteenth and sixteenth centuries . seems simple enough , but the word “ renaissance ” is actually fraught with complexity . | in the 15th and 16th centuries if the word renaissance is defined as rebirth , why would scholars disagree about whether these time frames were a rebirth or continuation ? |
renaissance the word renaissance is generally defined as the rebirth of classical antiquity in italy in the fifteenth and sixteenth centuries . seems simple enough , but the word “ renaissance ” is actually fraught with complexity . scholars argue about exactly when the renaissance happened , where it took place , how ... | one of the most important aspects of this painting is the symbolic meanings of the objects , for instance that the dog may symbolize fidelity ( “ fido ” ) or that the fruit on the windowsill may signify either wealth or temptation . this painting is a touchstone for the study of iconography , a method of interpreting w... | pretty obvious , plus the rise of humanism , plus the renewed interest in the natural world that eventually lead to the scientific method ? |
renaissance the word renaissance is generally defined as the rebirth of classical antiquity in italy in the fifteenth and sixteenth centuries . seems simple enough , but the word “ renaissance ” is actually fraught with complexity . scholars argue about exactly when the renaissance happened , where it took place , how ... | scholars also disagree about whether the renaissance is a “ rebirth ” of classical antiquity ( ancient greece and rome ) or simply a continuation of classical traditions but with different emphases . traditional accounts of the renaissance favor a narrative that places the birth of the renaissance in florence , italy .... | how can one deny the existence of the renaissance ? |
renaissance the word renaissance is generally defined as the rebirth of classical antiquity in italy in the fifteenth and sixteenth centuries . seems simple enough , but the word “ renaissance ” is actually fraught with complexity . scholars argue about exactly when the renaissance happened , where it took place , how ... | this painting is a touchstone for the study of iconography , a method of interpreting works of art by deciphering symbolic meaning . oil paint though jan van eyck did not invent oil paint , he used the medium to greater effect than any other artist to date . oil would become a predominant medium for painting for centur... | if van eyck did n't invent oil paints , then who did ? |
renaissance the word renaissance is generally defined as the rebirth of classical antiquity in italy in the fifteenth and sixteenth centuries . seems simple enough , but the word “ renaissance ” is actually fraught with complexity . scholars argue about exactly when the renaissance happened , where it took place , how ... | dürer studied , admired , and was inspired by italy , and he carried his italian experiences back to germany . the renaissance in northern europe however , so much changed in northern europe in the fifteenth and sixteenth centuries that the era deserves to be evaluated on its own terms . some of the most important chan... | did the renaissance occur anywhere besides italy and northern europe ? |
renaissance the word renaissance is generally defined as the rebirth of classical antiquity in italy in the fifteenth and sixteenth centuries . seems simple enough , but the word “ renaissance ” is actually fraught with complexity . scholars argue about exactly when the renaissance happened , where it took place , how ... | renaissance the word renaissance is generally defined as the rebirth of classical antiquity in italy in the fifteenth and sixteenth centuries . seems simple enough , but the word “ renaissance ” is actually fraught with complexity . | what is the last sentence alluding to ? |
renaissance the word renaissance is generally defined as the rebirth of classical antiquity in italy in the fifteenth and sixteenth centuries . seems simple enough , but the word “ renaissance ” is actually fraught with complexity . scholars argue about exactly when the renaissance happened , where it took place , how ... | this painting is a touchstone for the study of iconography , a method of interpreting works of art by deciphering symbolic meaning . oil paint though jan van eyck did not invent oil paint , he used the medium to greater effect than any other artist to date . oil would become a predominant medium for painting for centur... | in the oil paint paragraph it said that jan van eyck did not invent oil paint if he did n't that who did ? |
overview the indian wars were a protracted series of conflicts between native american indians and white settlers over land and natural resources in the west . many of these battles resulted from indian resistance to the imposition of the reservation system and the repeated attempts of the us army and white settlers to... | it was the last major conflict between the us army and the sioux tribe . on june 25 , 1876 , colonel george armstrong custer of the 7th cavalry led his battalion in an attack on the main sioux encampment at little bighorn , in a battle that is also commonly referred to as custer ’ s last stand. $ ^6 $ custer and his me... | for the picture of sitting bull , does the feather behind his head represent an important leading rank ? |
overview the indian wars were a protracted series of conflicts between native american indians and white settlers over land and natural resources in the west . many of these battles resulted from indian resistance to the imposition of the reservation system and the repeated attempts of the us army and white settlers to... | overview the indian wars were a protracted series of conflicts between native american indians and white settlers over land and natural resources in the west . many of these battles resulted from indian resistance to the imposition of the reservation system and the repeated attempts of the us army and white settlers to... | why were these battles important ? |
overview the indian wars were a protracted series of conflicts between native american indians and white settlers over land and natural resources in the west . many of these battles resulted from indian resistance to the imposition of the reservation system and the repeated attempts of the us army and white settlers to... | after the mexican-american war , the territories comprising modern-day texas , arizona , new mexico , and california became sites of competition and bloody skirmishing between white settlers and native americans. $ ^5 $ the battle of the little bighorn as white settlers moved into the great plains region , they battled... | also what areas was gold found in the black hills south dakota ? |
overview the indian wars were a protracted series of conflicts between native american indians and white settlers over land and natural resources in the west . many of these battles resulted from indian resistance to the imposition of the reservation system and the repeated attempts of the us army and white settlers to... | the indians , enjoying both superior numbers and a strong tactical advantage , defeated the 7th cavalry and killed custer . although the battle was a major victory for the sioux , they abandoned the encampment at little bighorn and fled , fearing further reprisals from the us army . the battle marked the beginning of t... | my question is what happen to the people that made it out of the battle who fled ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | at the end of the electron transport chain , oxygen accepts electrons and takes up protons to form water . glycolysis can take place without oxygen in a process called fermentation . the other three stages of cellular respiration—pyruvate oxidation , the citric acid cycle , and oxidative phosphorylation—require oxygen ... | why is the role nad+ plays so important in our ability to use the energy we take in ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | the molecule is n't appearing from scratch , it 's just being converted to its electron-carrying form : $ \text { nad } ^+ $ $ + $ $ 2 e^- $ $ + $ $ 2 \text h^+ $ $ \rightarrow $ $ \text { nadh } $ $ + $ $ \text h^+ $ $ \text { fad } $ $ + $ $ 2e^- $ $ + $ $ 2 \text h^+ $ $ \rightarrow $ $ \text { fadh } _2 $ to see ho... | if glycolysis requires atp to start how did the first glycolysis in history happen ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | let 's start by looking at cellular respiration at a high level , walking through the four major stages and tracing how they connect up to one another . steps of cellular respiration during cellular respiration , a glucose molecule is gradually broken down into carbon dioxide and water . along the way , some atp is pro... | when does your body go through cellular respiration ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | the molecule is n't appearing from scratch , it 's just being converted to its electron-carrying form : $ \text { nad } ^+ $ $ + $ $ 2 e^- $ $ + $ $ 2 \text h^+ $ $ \rightarrow $ $ \text { nadh } $ $ + $ $ \text h^+ $ $ \text { fad } $ $ + $ $ 2e^- $ $ + $ $ 2 \text h^+ $ $ \rightarrow $ $ \text { fadh } _2 $ to see ho... | does the glycolysis require energy to run the reaction ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | carbon dioxide is released and $ \text { nadh } $ is generated . citric acid cycle . the acetyl coa made in the last step combines with a four-carbon molecule and goes through a cycle of reactions , ultimately regenerating the four-carbon starting molecule . | in the citric acid cycle ( krebs cycle ) , would the four-carbon molecule that combines with acetyl coa be oxaloacetic acid ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | atp , $ \text { nadh } $ , and $ \text { fadh } _2 $ are produced , and carbon dioxide is released . oxidative phosphorylation . the $ \text { nadh } $ and $ \text { fadh } _2 $ made in other steps deposit their electrons in the electron transport chain , turning back into their `` empty '' forms ( $ \text { nad } ^+ $... | after oxidative phosphorylation , the atp created is in the mitochondrial matrix , right ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | atp , $ \text { nadh } $ , and $ \text { fadh } _2 $ are produced , and carbon dioxide is released . oxidative phosphorylation . the $ \text { nadh } $ and $ \text { fadh } _2 $ made in other steps deposit their electrons in the electron transport chain , turning back into their `` empty '' forms ( $ \text { nad } ^+ $... | i have been taught electron transport chain as the fourth process of cellular respiration ; here it says oxidative phosphorylation ; is it the same ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | as electrons move down the chain , energy is released and used to pump protons out of the matrix , forming a gradient . protons flow back into the matrix through an enzyme called atp synthase , making atp . at the end of the electron transport chain , oxygen accepts electrons and takes up protons to form water . | why do each stage produce different amount of atp ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | in these reactions , atp is made , and $ \text { nad } ^+ $ is converted to $ \text { nadh } $ . pyruvate oxidation . each pyruvate from glycolysis goes into the mitochondrial matrix—the innermost compartment of mitochondria . | what are the inputs of glucose oxidation ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . | because in the book its very specific on the outputs but the inputs are kind of hard to identfy ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | let 's start by looking at cellular respiration at a high level , walking through the four major stages and tracing how they connect up to one another . steps of cellular respiration during cellular respiration , a glucose molecule is gradually broken down into carbon dioxide and water . along the way , some atp is pro... | how many atp 's are produced in each step of cellular respiration ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | as electrons move down the chain , energy is released and used to pump protons out of the matrix , forming a gradient . protons flow back into the matrix through an enzyme called atp synthase , making atp . at the end of the electron transport chain , oxygen accepts electrons and takes up protons to form water . | which reaction produces the greatest amount of atp ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | let 's start by looking at cellular respiration at a high level , walking through the four major stages and tracing how they connect up to one another . steps of cellular respiration during cellular respiration , a glucose molecule is gradually broken down into carbon dioxide and water . along the way , some atp is pro... | how is chemistry involved in cellular respiration ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | atp , $ \text { nadh } $ , and $ \text { fadh } _2 $ are produced , and carbon dioxide is released . oxidative phosphorylation . the $ \text { nadh } $ and $ \text { fadh } _2 $ made in other steps deposit their electrons in the electron transport chain , turning back into their `` empty '' forms ( $ \text { nad } ^+ $... | why is fadh2 used as an electron carrier in complex ii of oxidative phosphorylation ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | let 's start by looking at cellular respiration at a high level , walking through the four major stages and tracing how they connect up to one another . steps of cellular respiration during cellular respiration , a glucose molecule is gradually broken down into carbon dioxide and water . along the way , some atp is pro... | i get what is happening in the krebs cycle , but how does that then go into the next part of cellular respiration ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | let 's start by looking at cellular respiration at a high level , walking through the four major stages and tracing how they connect up to one another . steps of cellular respiration during cellular respiration , a glucose molecule is gradually broken down into carbon dioxide and water . along the way , some atp is pro... | what does cellular respiration produce ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . | what is the difference between the cytoplasm and the cytosol ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! luckily , cellular respiration is not so scary once you get to know it . let 's start by looking at cellular respiration at a high level , walking through the four major stages and ... | what is the organelle where the final stages of cellular respiration take place ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | carbon dioxide is released and $ \text { nadh } $ is generated . citric acid cycle . the acetyl coa made in the last step combines with a four-carbon molecule and goes through a cycle of reactions , ultimately regenerating the four-carbon starting molecule . | is the kreb cycle another name for the citric acid cycle ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . | what is the + and - next to the variables ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | the molecule is n't appearing from scratch , it 's just being converted to its electron-carrying form : $ \text { nad } ^+ $ $ + $ $ 2 e^- $ $ + $ $ 2 \text h^+ $ $ \rightarrow $ $ \text { nadh } $ $ + $ $ \text h^+ $ $ \text { fad } $ $ + $ $ 2e^- $ $ + $ $ 2 \text h^+ $ $ \rightarrow $ $ \text { fadh } _2 $ to see ho... | where does the glycolysis proceed to aerobic respiration ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | let 's start by looking at cellular respiration at a high level , walking through the four major stages and tracing how they connect up to one another . steps of cellular respiration during cellular respiration , a glucose molecule is gradually broken down into carbon dioxide and water . along the way , some atp is pro... | how is cellular respiration within a cell 's cytoplasm different/like the cellular respiration within mitochondria ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | let 's start by looking at cellular respiration at a high level , walking through the four major stages and tracing how they connect up to one another . steps of cellular respiration during cellular respiration , a glucose molecule is gradually broken down into carbon dioxide and water . along the way , some atp is pro... | water is produced during which step in cellular respiration ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | in these reactions , atp is made , and $ \text { nad } ^+ $ is converted to $ \text { nadh } $ . pyruvate oxidation . each pyruvate from glycolysis goes into the mitochondrial matrix—the innermost compartment of mitochondria . | how is pyruvate 'oxidised ' ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | citric acid cycle . the acetyl coa made in the last step combines with a four-carbon molecule and goes through a cycle of reactions , ultimately regenerating the four-carbon starting molecule . atp , $ \text { nadh } $ , and $ \text { fadh } _2 $ are produced , and carbon dioxide is released . | what is the four carbon molecule ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | in these reactions , atp is made , and $ \text { nad } ^+ $ is converted to $ \text { nadh } $ . pyruvate oxidation . each pyruvate from glycolysis goes into the mitochondrial matrix—the innermost compartment of mitochondria . | what is the source of co2 during the process of pyruvate decarboxylation ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | let 's start by looking at cellular respiration at a high level , walking through the four major stages and tracing how they connect up to one another . steps of cellular respiration during cellular respiration , a glucose molecule is gradually broken down into carbon dioxide and water . along the way , some atp is pro... | why do we use 2 cycles for each glucose molecule ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | let 's start by looking at cellular respiration at a high level , walking through the four major stages and tracing how they connect up to one another . steps of cellular respiration during cellular respiration , a glucose molecule is gradually broken down into carbon dioxide and water . along the way , some atp is pro... | can you show me how to calculate total amount of atp from whole cellular respiration process ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | pyruvate oxidation . each pyruvate from glycolysis goes into the mitochondrial matrix—the innermost compartment of mitochondria . there , it ’ s converted into a two-carbon molecule bound to coenzyme a , known as acetyl coa . | how is there a relationship between the mitochondria and the chloroplast ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | there , it ’ s converted into a two-carbon molecule bound to coenzyme a , known as acetyl coa . carbon dioxide is released and $ \text { nadh } $ is generated . citric acid cycle . | so is there a direct conversion of nadh 's and fadh2 's ( or qh2 's ) into atps ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | let 's start by looking at cellular respiration at a high level , walking through the four major stages and tracing how they connect up to one another . steps of cellular respiration during cellular respiration , a glucose molecule is gradually broken down into carbon dioxide and water . along the way , some atp is pro... | how and where cellular respiration works/happens ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | protons flow back into the matrix through an enzyme called atp synthase , making atp . at the end of the electron transport chain , oxygen accepts electrons and takes up protons to form water . glycolysis can take place without oxygen in a process called fermentation . the other three stages of cellular respiration—pyr... | how 's that with and without electrons , the structure or compound is still the same ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | protons flow back into the matrix through an enzyme called atp synthase , making atp . at the end of the electron transport chain , oxygen accepts electrons and takes up protons to form water . glycolysis can take place without oxygen in a process called fermentation . | what is the electron transport chain ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | let 's start by looking at cellular respiration at a high level , walking through the four major stages and tracing how they connect up to one another . steps of cellular respiration during cellular respiration , a glucose molecule is gradually broken down into carbon dioxide and water . along the way , some atp is pro... | how could this have affected what kinds of organisms could evolve due to cellular respiration ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! luckily , cellular respiration is not so scary once you get to know it . let 's start by looking at cellular respiration at a high level , walking through the four major stages and ... | the water that is made as a by-product , do we just breathe it out , or is there some other way we get rid of it ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | the molecule is n't appearing from scratch , it 's just being converted to its electron-carrying form : $ \text { nad } ^+ $ $ + $ $ 2 e^- $ $ + $ $ 2 \text h^+ $ $ \rightarrow $ $ \text { nadh } $ $ + $ $ \text h^+ $ $ \text { fad } $ $ + $ $ 2e^- $ $ + $ $ 2 \text h^+ $ $ \rightarrow $ $ \text { fadh } _2 $ to see ho... | i know glycolysis happens in the mitchondria , but where does the kreb cycle or the etc happen ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | citric acid cycle . the acetyl coa made in the last step combines with a four-carbon molecule and goes through a cycle of reactions , ultimately regenerating the four-carbon starting molecule . atp , $ \text { nadh } $ , and $ \text { fadh } _2 $ are produced , and carbon dioxide is released . | what is the starting molecule for the reaction ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | let 's start by looking at cellular respiration at a high level , walking through the four major stages and tracing how they connect up to one another . steps of cellular respiration during cellular respiration , a glucose molecule is gradually broken down into carbon dioxide and water . along the way , some atp is pro... | my biology teacher wants us to do research notes on celluar respiration what would be the simplest way to explain these in note form ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | protons flow back into the matrix through an enzyme called atp synthase , making atp . at the end of the electron transport chain , oxygen accepts electrons and takes up protons to form water . glycolysis can take place without oxygen in a process called fermentation . the other three stages of cellular respiration—pyr... | how do your cells continue to make energy if oxygen is not present ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | atp , $ \text { nadh } $ , and $ \text { fadh } _2 $ are produced , and carbon dioxide is released . oxidative phosphorylation . the $ \text { nadh } $ and $ \text { fadh } _2 $ made in other steps deposit their electrons in the electron transport chain , turning back into their `` empty '' forms ( $ \text { nad } ^+ $... | the protons that are pump out of the matrix in oxidative phosphorylation , where do they come from ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | the $ \text { nadh } $ and $ \text { fadh } _2 $ made in other steps deposit their electrons in the electron transport chain , turning back into their `` empty '' forms ( $ \text { nad } ^+ $ and $ \text { fad } $ ) . as electrons move down the chain , energy is released and used to pump protons out of the matrix , for... | what is the source of these protons ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! luckily , cellular respiration is not so scary once you get to know it . let 's start by looking at cellular respiration at a high level , walking through the four major stages and ... | how many molecules of atp are made during one cycle of cellular respiration ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . | what are the capacities of the lungs ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | in these reactions , atp is made , and $ \text { nad } ^+ $ is converted to $ \text { nadh } $ . pyruvate oxidation . each pyruvate from glycolysis goes into the mitochondrial matrix—the innermost compartment of mitochondria . | what is the h2o at the end of the oxidation phosphorylation used for ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | let 's start by looking at cellular respiration at a high level , walking through the four major stages and tracing how they connect up to one another . steps of cellular respiration during cellular respiration , a glucose molecule is gradually broken down into carbon dioxide and water . along the way , some atp is pro... | what is the stage of cellular respiration that takes place in the cytoplasm ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | each pyruvate from glycolysis goes into the mitochondrial matrix—the innermost compartment of mitochondria . there , it ’ s converted into a two-carbon molecule bound to coenzyme a , known as acetyl coa . carbon dioxide is released and $ \text { nadh } $ is generated . | what happens to acetyol coa in the third paragraph ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | protons flow back into the matrix through an enzyme called atp synthase , making atp . at the end of the electron transport chain , oxygen accepts electrons and takes up protons to form water . glycolysis can take place without oxygen in a process called fermentation . | how does the electron transport chain relate to the mitochondria ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | let 's start by looking at cellular respiration at a high level , walking through the four major stages and tracing how they connect up to one another . steps of cellular respiration during cellular respiration , a glucose molecule is gradually broken down into carbon dioxide and water . along the way , some atp is pro... | in the final stage of cellular respiration , what is oxygen gas converted to ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | let 's start by looking at cellular respiration at a high level , walking through the four major stages and tracing how they connect up to one another . steps of cellular respiration during cellular respiration , a glucose molecule is gradually broken down into carbon dioxide and water . along the way , some atp is pro... | where does the oxygen come from that is used during cellular respiration ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | protons flow back into the matrix through an enzyme called atp synthase , making atp . at the end of the electron transport chain , oxygen accepts electrons and takes up protons to form water . glycolysis can take place without oxygen in a process called fermentation . | how is chemiosmosis related to the electron transport chain ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | protons flow back into the matrix through an enzyme called atp synthase , making atp . at the end of the electron transport chain , oxygen accepts electrons and takes up protons to form water . glycolysis can take place without oxygen in a process called fermentation . | where do protons that are being pumped out come from and where does the oxygen come from that bind to the persons to for water ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | in glycolysis , glucose—a six-carbon sugar—undergoes a series of chemical transformations . in the end , it gets converted into two molecules of pyruvate , a three-carbon organic molecule . in these reactions , atp is made , and $ \text { nad } ^+ $ is converted to $ \text { nadh } $ . | which of the following processes involves breaking down 3-carbon molecules into 2-carbon molecules ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | carbon dioxide is released and $ \text { nadh } $ is generated . citric acid cycle . the acetyl coa made in the last step combines with a four-carbon molecule and goes through a cycle of reactions , ultimately regenerating the four-carbon starting molecule . | what 's the importance of krebs cycle , please ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | the molecule is n't appearing from scratch , it 's just being converted to its electron-carrying form : $ \text { nad } ^+ $ $ + $ $ 2 e^- $ $ + $ $ 2 \text h^+ $ $ \rightarrow $ $ \text { nadh } $ $ + $ $ \text h^+ $ $ \text { fad } $ $ + $ $ 2e^- $ $ + $ $ 2 \text h^+ $ $ \rightarrow $ $ \text { fadh } _2 $ to see ho... | does glucose get phosphorylated in the process of glycolysis ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | the $ \text { nadh } $ and $ \text { fadh } _2 $ made in other steps deposit their electrons in the electron transport chain , turning back into their `` empty '' forms ( $ \text { nad } ^+ $ and $ \text { fad } $ ) . as electrons move down the chain , energy is released and used to pump protons out of the matrix , for... | is the energy released from atp when it is hydrolysed ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | as electrons move down the chain , energy is released and used to pump protons out of the matrix , forming a gradient . protons flow back into the matrix through an enzyme called atp synthase , making atp . at the end of the electron transport chain , oxygen accepts electrons and takes up protons to form water . | how come in the production of atp , atp itself is used ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | carbon dioxide is released and $ \text { nadh } $ is generated . citric acid cycle . the acetyl coa made in the last step combines with a four-carbon molecule and goes through a cycle of reactions , ultimately regenerating the four-carbon starting molecule . | are the citric acid cycle and the krebs cycle the same thing ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | let 's start by looking at cellular respiration at a high level , walking through the four major stages and tracing how they connect up to one another . steps of cellular respiration during cellular respiration , a glucose molecule is gradually broken down into carbon dioxide and water . along the way , some atp is pro... | what is the function of a proton gradient and how is it formed during cellular respiration ? |
introduction cellular respiration is one of the most elegant , majestic , and fascinating metabolic pathways on earth . at the same time , it ’ s also one of the most complicated . when i learned about it for the first time , i felt like i had tripped and fallen into a can of organic-chemistry-flavored alphabet soup ! ... | the $ \text { nadh } $ and $ \text { fadh } _2 $ made in other steps deposit their electrons in the electron transport chain , turning back into their `` empty '' forms ( $ \text { nad } ^+ $ and $ \text { fad } $ ) . as electrons move down the chain , energy is released and used to pump protons out of the matrix , for... | what is the energy source of that equation ? |
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