answer stringlengths 1 210 | problem stringlengths 58 998 |
|---|---|
7.25e-11 | Determine the wavelength of $\lambda_{K_{\alpha}}$ for molybdenum (Mo). Please format your answer as $n \times 10^x$ where $n$ is to 2 decimal places, in meters. |
3.61e2 | Determine the second-nearest neighbor distance (in pm) for nickel (Ni) at $100^{\circ} \mathrm{C}$ if its density at that temperature is $8.83 \mathrm{~g} / \mathrm{cm}^{3}$. Please format your answer as $n \times 10^x$ where $n$ is to 2 decimal places. |
1950 | What is the working temperature for silica glass in Celsius? |
2415 | What acceleration potential $V$ must be applied to electrons to cause electron diffraction on $\{220\}$ planes of gold $(\mathrm{Au})$ at $\theta=5^{\circ}$ ? Format your answer as an integer, in Volts. |
6.4 | To increase its corrosion resistance, chromium $(\mathrm{Cr})$ is diffused into steel at $980^{\circ} \mathrm{C}$. If during diffusion the surface concentration of chromium remains constant at $100 \%$, how long will it take (in days) to achieve a $\mathrm{Cr}$ concentration of $1.8 \%$ at a depth of $0.002 \mathrm{~cm... |
1200 | Subproblem 0: What is the working temperature for silica glass in Celsius?
Solution: \boxed{1950}.
Final answer: The final answer is 1950. I hope it is correct.
Subproblem 1: What is the softening temperature for silica glass in Celsius?
Solution: \boxed{1700}.
Final answer: The final answer is 1700. I hope it i... |
1.85e5 | Preamble: Calculate the vacancy fraction in copper (Cu) in $\mathrm{~cm}^{-3}$ at the following temperatures. Measurements have determined the values of the enthalpy of vacancy formation, $\Delta \mathrm{H}_{\mathrm{V}}$, to be $1.03 \mathrm{eV}$ and the entropic prefactor, A, to be 1.1. Please format your answers as $... |
0.554 | Preamble: For aluminum at $300 \mathrm{~K}$,
Calculate the planar packing fraction (fractional area occupied by atoms) of the ( 110 ) plane. Please round your answer to 3 decimal places. |
3.3e-10 | Determine the inter-ionic equilibrium distance in meters between the sodium and chlorine ions in a sodium chloride molecule knowing that the bond energy is $3.84 \mathrm{eV}$ and that the repulsive exponent is 8. Please format your answer as $n \times 10^x$ where $n$ is to 1 decimal place. |
928 | Preamble: A formation energy of $2.0 \mathrm{eV}$ is required to create a vacancy in a particular metal. At $800^{\circ} \mathrm{C}$ there is one vacancy for every 10,000 atoms.
At what temperature (in Celsius) will there be one vacancy for every 1,000 atoms? Format your answer as an integer. |
927.5 | For $\mathrm{NaF}$ the repulsive (Born) exponent, $\mathrm{n}$, is 8.7. Making use of data given in your Periodic Table, calculate the crystal energy ( $\left.\Delta \mathrm{E}_{\text {cryst }}\right)$ in kJ/mole, to 1 decimal place. |
84.01 | Preamble: Calculate the molecular weight in g/mole (to 2 decimal places) of each of the substances listed below.
Subproblem 0: $\mathrm{NH}_{4} \mathrm{OH}$
Solution: $\mathrm{NH}_{4} \mathrm{OH}$ :
$5 \times 1.01=5.05(\mathrm{H})$
$1 \times 14.01=14.01(\mathrm{~N})$
$1 \times 16.00=16.00(\mathrm{O})$
$\mathrm{NH}_{... |
1.5 | In iridium (Ir), the vacancy fraction, $n_{v} / \mathrm{N}$, is $3.091 \times 10^{-5}$ at $12340^{\circ} \mathrm{C}$ and $5.26 \times 10^{-3}$ at the melting point. Calculate the enthalpy of vacancy formation, $\Delta \mathrm{H}_{\mathrm{v}}$. Round your answer to 1 decimal place. |
5.3e3 | If no electron-hole pairs were produced in germanium (Ge) until the temperature reached the value corresponding to the energy gap, at what temperature (Celsius) would Ge become conductive? Please format your answer as $n \times 10^x$ where n is to 1 decimal place. $\left(\mathrm{E}_{\mathrm{th}}=3 / 2 \mathrm{kT}\righ... |
28.8 | Preamble: A first-order chemical reaction is found to have an activation energy $\left(E_{A}\right)$ of 250 $\mathrm{kJ} /$ mole and a pre-exponential (A) of $1.7 \times 10^{14} \mathrm{~s}^{-1}$.
Determine the rate constant at $\mathrm{T}=750^{\circ} \mathrm{C}$. Round your answer to 1 decimal place, in units of $\ma... |
4.46e19 | A cubic metal $(r=0.77 \AA$ ) exhibits plastic deformation by slip along $<111>$ directions. Determine its planar packing density (atoms $/ \mathrm{m}^{2}$) for its densest family of planes. Please format your answer as $n \times 10^x$ where $n$ is to 2 decimal places. |
2.68 | Determine the total void volume $(\mathrm{cm}^{3} / mole)$ for gold (Au) at $27^{\circ} \mathrm{C}$; make the hard-sphere approximation in your calculation. Note that the molar volume of gold (Au) is $10.3 \mathrm{~cm}^{3} / \mathrm{mole}$. Please round your answer to 2 decimal places. |
700 | Subproblem 0: What is the working temperature for silica glass in Celsius?
Solution: \boxed{1950}.
Final answer: The final answer is 1950. I hope it is correct.
Subproblem 1: What is the softening temperature for silica glass in Celsius?
Solution: \boxed{1700}.
Final answer: The final answer is 1700. I hope it i... |
2.26e-10 | What is the maximum wavelength $(\lambda)$ (in meters) of radiation capable of second order diffraction in platinum (Pt)? Please format your answer as $n \times 10^x$ where $n$ is to 2 decimal places. |
41.9 | What is the activation energy of a process which is observed to increase by a factor of three when the temperature is increased from room temperature $\left(20^{\circ} \mathrm{C}\right)$ to $40^{\circ} \mathrm{C}$ ? Round your answer to 1 decimal place, and express it in $\mathrm{~kJ} / \mathrm{mole}$. |
0.112 | How much oxygen (in kg, to 3 decimal places) is required to completely convert 1 mole of $\mathrm{C}_{2} \mathrm{H}_{6}$ into $\mathrm{CO}_{2}$ and $\mathrm{H}_{2} \mathrm{O}$ ? |
0.54 | Determine the differences in relative electronegativity $(\Delta x$ in $e V)$ for the systems ${H}-{F}$ and ${C}-{F}$ given the following data:
$\begin{array}{cl}\text { Bond Energy } & {kJ} / \text { mole } \\ {H}_{2} & 436 \\ {~F}_{2} & 172 \\ {C}-{C} & 335 \\ {H}-{F} & 565 \\ {C}-{H} & 410\end{array}$
\\
Please form... |
3.21e13 | Preamble: The number of electron-hole pairs in intrinsic germanium (Ge) is given by:
\[
n_{i}=9.7 \times 10^{15} \mathrm{~T}^{3 / 2} \mathrm{e}^{-\mathrm{E}_{g} / 2 \mathrm{KT}}\left[\mathrm{cm}^{3}\right] \quad\left(\mathrm{E}_{\mathrm{g}}=0.72 \mathrm{eV}\right)
\]
What is the density of pairs at $\mathrm{T}=20^{\ci... |
2.45e6 | Preamble: For light with a wavelength $(\lambda)$ of $408 \mathrm{~nm}$ determine:
Subproblem 0: the frequency in $s^{-1}$. Please format your answer as $n \times 10^x$, where $n$ is to 3 decimal places.
Solution: To solve this problem we must know the following relationships:
\[
\begin{aligned}
v \lambda &=c
\end{... |
36 | Calculate the volume in mL of $0.25 \mathrm{M} \mathrm{NaI}$ that would be needed to precipitate all the $\mathrm{g}^{2+}$ ion from $45 \mathrm{~mL}$ of a $0.10 \mathrm{M} \mathrm{Hg}\left(\mathrm{NO}_{3}\right)_{2}$ solution according to the following reaction:
\[
2 \mathrm{NaI}(\mathrm{aq})+\mathrm{Hg}\left(\mathrm{N... |
258 | A slab of plate glass containing dissolved helium (He) is placed in a vacuum furnace at a temperature of $400^{\circ} \mathrm{C}$ to remove the helium from the glass. Before vacuum treatment, the concentration of helium is constant throughout the glass. After 10 minutes in vacuum at $400^{\circ} \mathrm{C}$, at what de... |
1700 | Subproblem 0: What is the working temperature for silica glass in Celsius?
Solution: \boxed{1950}.
Final answer: The final answer is 1950. I hope it is correct.
Subproblem 1: What is the softening temperature for silica glass in Celsius? |
12.4 | Preamble: Two lasers generate radiation of (1) $9.5 \mu {m}$ and (2) $0.1 \mu {m}$ respectively.
Subproblem 0: Determine the photon energy (in eV, to two decimal places) of the laser generating radiation of $9.5 \mu {m}$.
Solution: \[
\begin{aligned}
{E} &={h} v=\frac{{hc}}{\lambda} {J} \times \frac{1 {eV}}{1.6 \tim... |
5.3e-9 | Preamble: $\mathrm{Bi}_{2} \mathrm{~S}_{3}$ dissolves in water according to the following reaction:
\[
\mathrm{Bi}_{2} \mathrm{~S}_{3}(\mathrm{~s}) \Leftrightarrow 2 \mathrm{Bi}^{3+}(\mathrm{aq})+3 \mathrm{~s}^{2-}(\mathrm{aq})
\]
for which the solubility product, $\mathrm{K}_{\mathrm{sp}}$, has the value of $1.6 \time... |
50.7 | Whiskey, suspected to be of the "moonshine" variety, is analyzed for its age by determining its amount of naturally occurring tritium (T) which is a radioactive hydrogen isotope $\left({ }^{3} \mathrm{H}\right)$ with a half-life of $12.5$ years. In this "shine" the activity is found to be $6 \%$ of that encountered in ... |
800 | Subproblem 0: What is the working temperature for silica glass in Celsius?
Solution: \boxed{1950}.
Final answer: The final answer is 1950. I hope it is correct.
Subproblem 1: What is the softening temperature for silica glass in Celsius?
Solution: \boxed{1700}.
Final answer: The final answer is 1700. I hope it i... |
100 | Preamble: A first-order chemical reaction is found to have an activation energy $\left(E_{A}\right)$ of 250 $\mathrm{kJ} /$ mole and a pre-exponential (A) of $1.7 \times 10^{14} \mathrm{~s}^{-1}$.
Subproblem 0: Determine the rate constant at $\mathrm{T}=750^{\circ} \mathrm{C}$. Round your answer to 1 decimal place, in... |
6.5e-2 | Determine the energy gap (in eV) between the electronic states $n=7$ and $n=8$ in hydrogen. Please format your answer as $n \times 10^x$ where $n$ is to 1 decimal place. |
41585 | Preamble: The decay rate of ${ }^{14} \mathrm{C}$ in living tissue is $15.3$ disintegrations per minute per gram of carbon. Experimentally, the decay rate can be measured to $\pm 0.1$ disintegrations per minute per gram of carbon. The half-life of ${ }^{14} \mathrm{C}$ is 5730 years.
What is the maximum age of a sampl... |
1.69 | Estimate the ionic radius of ${Cs}^{+}$ in Angstroms to 2 decimal places. The lattice energy of $\mathrm{CsCl}$ is $633 \mathrm{~kJ} / \mathrm{mol}$. For $\mathrm{CsCl}$ the Madelung constant, $\mathrm{M}$, is $1.763$, and the Born exponent, $\mathrm{n}$, is 10.7. The ionic radius of $\mathrm{Cl}^{-}$is known to be $1.... |
7.02e5 | Given the ionic radii, $\mathrm{Cs}^{+}=1.67 \AA, \mathrm{Cl}^{-}=1.81 \AA$, and the Madelung constant $\mathrm{M}(\mathrm{CsCl})=1.763$, determine to the best of your ability the molar Crystal energy ( $\Delta \mathrm{E}_{\text {cryst }}$ ) for $\mathrm{CsCl}$. Please format your answer as $n \times 10^x$ where n is t... |
1.04e-3 | Determine the amount (in grams) of boron (B) that, substitutionally incorporated into $1 \mathrm{~kg}$ of germanium (Ge), will establish a charge carrier density of $3.091 \mathrm{x}$ $10^{17} / \mathrm{cm}^{3}$. Please format your answer as $n \times 10^x$ where $n$ is to 2 decimal places. |
4 | Subproblem 0: Is an energy level of $-1.362 \times 10^{-19} {~J}$ an allowed electron energy state in atomic hydrogen?
Solution: $E_{e l} =-\frac{1}{n^{2}} {~K}$ \\
$-1.362 \times 10^{-19} {~J}=-\frac{1}{{n}^{2}} \times 2.18 \times 10^{-18} {~J}$\\
${n} &=\sqrt{\frac{2.18 \times 10^{-18}}{1.362 \times 10^{-19}}}=4.00... |
3.75e9 | Determine the highest linear density of atoms (atoms/m) encountered in vanadium (V). Please format your answer as $n \times 10^x$ where $n$ is to 2 decimal places. |
8.49e-4 | Strontium fluoride, $\mathrm{SrF}_{2}$, has a $\mathrm{K}_{\mathrm{sp}}$ value in water of $2.45 \times 10^{-9}$ at room temperature.
Calculate the solubility of $\mathrm{SrF}_{2}$ in water. Express your answer in units of molarity. Please format your answer as $n \times 10^x$ where $n$ is to 2 decimal places. |
0.7773 | You wish to dope a single crystal of silicon (Si) with boron (B). The specification reads $5 \times 10^{16}$ boron atoms/ $\mathrm{cm}^{3}$ at a depth of $25 \mu \mathrm{m}$ from the surface of the silicon. What must be the effective concentration of boron in units of atoms/ $\mathrm{cm}^{3}$ if you are to meet this sp... |
3 | An electron beam strikes a crystal of cadmium sulfide (CdS). Electrons scattered by the crystal move at a velocity of $4.4 \times 10^{5} \mathrm{~m} / \mathrm{s}$. Calculate the energy of the incident beam. Express your result in eV, and as an integer. CdS is a semiconductor with a band gap, $E_{g}$, of $2.45$ eV. |
12.5 | Subproblem 0: Determine the inter-ionic equilibrium distance in meters between the sodium and chlorine ions in a sodium chloride molecule knowing that the bond energy is $3.84 \mathrm{eV}$ and that the repulsive exponent is 8. Please format your answer as $n \times 10^x$ where $n$ is to 1 decimal place.
Solution: $\m... |
-\frac{1}{2} X^{-\frac{1}{2}} | Preamble: A consumer's preferences are representable by the following utility function:
\[
u(x, y)=x^{\frac{1}{2}}+y
\]
Obtain the marginal rate of substitution of the consumer at an arbitrary point $(X,Y)$, where $X>0$ and $Y>0$. |
\frac{2}{3} \frac{C}{S} | Preamble: Xiaoyu spends all her income on statistical software $(S)$ and clothes (C). Her preferences can be represented by the utility function: $U(S, C)=4 \ln (S)+6 \ln (C)$.
Compute the marginal rate of substitution of software for clothes. |
MR=SRMC | What algebraic condition describes a firm that is at an output level that maximizes its profits, given its capital in the short-term? Use standard acronyms in your condition. |
3 | Preamble: Moldavia is a small country that currently trades freely in the world barley market. Demand and supply for barley in Moldavia is governed by the following schedules:
Demand: $Q^{D}=4-P$
Supply: $Q^{S}=P$
The world price of barley is $\$ 1 /$ bushel.
Subproblem 0: Calculate the free trade equilibrium price of... |
57 | Preamble: Consider the market for apple juice. In this market, the supply curve is given by $Q_{S}=$ $10 P_{J}-5 P_{A}$ and the demand curve is given by $Q_{D}=100-15 P_{J}+10 P_{T}$, where $J$ denotes apple juice, $A$ denotes apples, and $T$ denotes tea.
Subproblem 0: Assume that $P_{A}$ is fixed at $\$ 1$ and $P_{T}... |
8 | Preamble: Suppose, in the short run, the output of widgets is supplied by 100 identical competitive firms, each having a cost function:
\[
c_{s}(y)=\frac{1}{3} y^{3}+2
\]
The demand for widgets is given by:
\[
y^{d}(p)=6400 / p^{\frac{1}{2}}
\]
Subproblem 0: Obtain the short run industry supply function for widgets.
... |
\frac{K-1}{L} | Preamble: Sebastian owns a coffee factory in Argentina. His production function is:
\[
F(K, L)=(K-1)^{\frac{1}{4}} L^{\frac{1}{4}}
\]
Consider the cost of capital to be $r$ and the wage to be $w$. Both inputs are variable, and Sebastian faces no fixed costs.
What is the marginal rate of technical substitution of labor... |
SRAC=LRAC | Preamble: There are two algebraic conditions describing a firm that is at a capital level that minimizes its costs in the long-term.
Write the condition which involves the SRAC, or short-run average cost? |
SRMC=LRMC | Preamble: There are two algebraic conditions describing a firm that is at a capital level that minimizes its costs in the long-term.
Subproblem 0: Write the condition which involves the SRAC, or short-run average cost?
Solution: \boxed{SRAC=LRAC}, short-run average cost equals long-run average cost.
Final answer: T... |
100 p^{\frac{1}{2}} | Preamble: Suppose, in the short run, the output of widgets is supplied by 100 identical competitive firms, each having a cost function:
\[
c_{s}(y)=\frac{1}{3} y^{3}+2
\]
The demand for widgets is given by:
\[
y^{d}(p)=6400 / p^{\frac{1}{2}}
\]
Obtain the short run industry supply function for widgets. |
1 | Preamble: Moldavia is a small country that currently trades freely in the world barley market. Demand and supply for barley in Moldavia is governed by the following schedules:
Demand: $Q^{D}=4-P$
Supply: $Q^{S}=P$
The world price of barley is $\$ 1 /$ bushel.
Calculate the free trade equilibrium price of barley in Mol... |
64 | Preamble: Suppose, in the short run, the output of widgets is supplied by 100 identical competitive firms, each having a cost function:
\[
c_{s}(y)=\frac{1}{3} y^{3}+2
\]
The demand for widgets is given by:
\[
y^{d}(p)=6400 / p^{\frac{1}{2}}
\]
Subproblem 0: Obtain the short run industry supply function for widgets.
... |
\frac{1}{4p^2} | Preamble: A consumer's preferences are representable by the following utility function:
\[
u(x, y)=x^{\frac{1}{2}}+y
\]
Subproblem 0: Obtain the marginal rate of substitution of the consumer at an arbitrary point $(X,Y)$, where $X>0$ and $Y>0$.
Solution: \[ M R S=-\frac{\frac{1}{2} x^{-\frac{1}{2}}}{1}=\boxed{-\fr... |
6.2 | Preamble: Consider the market for apple juice. In this market, the supply curve is given by $Q_{S}=$ $10 P_{J}-5 P_{A}$ and the demand curve is given by $Q_{D}=100-15 P_{J}+10 P_{T}$, where $J$ denotes apple juice, $A$ denotes apples, and $T$ denotes tea.
Assume that $P_{A}$ is fixed at $\$ 1$ and $P_{T}=5$. Calculate... |
75 | Preamble: In Cambridge, shoppers can buy apples from two sources: a local orchard, and a store that ships apples from out of state. The orchard can produce up to 50 apples per day at a constant marginal cost of 25 cents per apple. The store can supply any remaining apples demanded, at a constant marginal cost of 75 cen... |
4 | Preamble: You manage a factory that produces cans of peanut butter. The current market price is $\$ 10 /$ can, and you know the following about your costs (MC stands for marginal cost, and ATC stands for average total cost):
\[
\begin{array}{l}
MC(5)=10 \\
ATC(5)=6 \\
MC(4)=4 \\
ATC(4)=4
\end{array}
\]
A case of food ... |
\alpha | Preamble: Suppose there are exactly two consumers (Albie and Bubbie) who demand strawberries. Suppose that Albie's demand for strawberries is given by
\[
q_{a}(p)=p^{\alpha} f_{a}\left(I_{a}\right)
\]
and Bubbie's demand is given by
\[
q_{b}(p)=p^{\beta} f_{b}\left(I_{b}\right)
\]
where $I_{a}$ and $I_{b}$ are Albie an... |
X_{d}=125-1.25 P | Preamble: You have been asked to analyze the market for steel. From public sources, you are able to find that last year's price for steel was $\$ 20$ per ton. At this price, 100 million tons were sold on the world market. From trade association data you are able to obtain estimates for the own price elasticities of dem... |
\hbar \omega(v+1 / 2)-\frac{E_{0}^{2} e^{2}}{2 m \omega^{2}} | Harmonic Oscillator Subjected to Perturbation by an Electric Field: An electron is connected by a harmonic spring to a fixed point at $x=0$. It is subject to a field-free potential energy
\[
V(x)=\frac{1}{2} k x^{2} .
\]
The energy levels and eigenstates are those of a harmonic oscillator where
\[
\begin{aligned}
\omeg... |
7.6 Z | Preamble: The following concern the independent particle model. You may find the following set of Coulomb and exchange integrals useful (energies in $\mathrm{eV}$):
$\mathrm{J}_{1 s 1 s}=17.0 Z$
$\mathrm{~J}_{1 s 2 s}=4.8 Z$
$\mathrm{~K}_{1 s 2 s}=0.9 Z$
$\mathrm{~J}_{2 s 2 s}=3.5 Z$
$\mathrm{J}_{1 s 2 p}=6.6 Z$
$... |
1.07e16 | Preamble: A pulsed Nd:YAG laser is found in many physical chemistry laboratories.
For a $2.00 \mathrm{~mJ}$ pulse of laser light, how many photons are there at $1.06 \mu \mathrm{m}$ (the Nd:YAG fundamental) in the pulse? PAnswer to three significant figures. |
2.88e-19 | Given that the work function of chromium is $4.40 \mathrm{eV}$, calculate the kinetic energy of electrons in Joules emitted from a clean chromium surface that is irradiated with ultraviolet radiation of wavelength $200 \mathrm{~nm}$. |
1.325e-27 | Compute the momentum of one $500 \mathrm{~nm}$ photon using $p_{\text {photon }}=E_{\text {photon }} / c$ where $c$ is the speed of light, $c=3 \times 10^{8} \mathrm{~m} / \mathrm{s}$, and $\nu=c / \lambda$. Express your answer in kilogram meters per second, rounding your answer to three decimal places. |
11.9 | Preamble: This problem deals with the H\"uckel MO theory of $\pi$-conjugated systems.
To answer each question, you will need to construct the Hückel MOs for each of the molecules pictured, divide them into sets of occupied and unoccupied orbitals, and determine the relevant properties, such as ground state energy, bond... |
4.6e-24 | A baseball has diameter $=7.4 \mathrm{~cm}$. and a mass of $145 \mathrm{~g}$. Suppose the baseball is moving at $v=1 \mathrm{~nm} /$ second. What is its de Broglie wavelength
\[
\lambda=\frac{h}{p}=\frac{h}{m \nu}
\]
? Give answer in meters. |
\frac{1}{3} E_{1}+\frac{2}{3} E_{2} | Preamble: Consider the Particle in an Infinite Box ``superposition state'' wavefunction,
\[
\psi_{1,2}=(1 / 3)^{1 / 2} \psi_{1}+(2 / 3)^{1 / 2} \psi_{2}
\]
where $E_{1}$ is the eigen-energy of $\psi_{1}$ and $E_{2}$ is the eigen-energy of $\psi_{2}$.
Subproblem 0: Suppose you do one experiment to measure the energy of... |
E_{1},E_{2} | Preamble: Consider the Particle in an Infinite Box ``superposition state'' wavefunction,
\[
\psi_{1,2}=(1 / 3)^{1 / 2} \psi_{1}+(2 / 3)^{1 / 2} \psi_{2}
\]
where $E_{1}$ is the eigen-energy of $\psi_{1}$ and $E_{2}$ is the eigen-energy of $\psi_{2}$.
Suppose you do one experiment to measure the energy of $\psi_{1,2}$.... |
24 | Preamble: Evaluate the following integrals for $\psi_{J M}$ eigenfunctions of $\mathbf{J}^{2}$ and $\mathbf{J}_{z}$.
$\int \psi_{22}^{*}\left(\widehat{\mathbf{J}}^{+}\right)^{4} \psi_{2,-2} d \tau$ |
10.1 | Preamble: Consider the 3-level $\mathbf{H}$ matrix
\[
\mathbf{H}=\hbar \omega\left(\begin{array}{ccc}
10 & 1 & 0 \\
1 & 0 & 2 \\
0 & 2 & -10
\end{array}\right)
\]
Label the eigen-energies and eigen-functions according to the dominant basis state character. The $\widetilde{10}$ state is the one dominated by the zero-ord... |
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