The population ratio between two energy levelsninjseparated in energy by:A E = E₁ - Ejwith AE = 1.1×10-22 J is 0.84. That is:ni= 0.84 with AE = 1.1×10-22]njRemember the Boltzmann equation for the population of particles in state i with energy Ei at temperature T is:Nn₁ = = eZWhat is the temperature of the system (use two sig figs)?4.0 ✓K

The temperature is 1.39 KExplanation:Step 1:njni=exp(−kTEi−Ej)=exp(−kTΔE) Step 2:Solve the…

Answered: The population ratio between two energy…

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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5.40x106 atoms are excited to an upper energy level at t = 0 s. At the end of 30.0 ns , 90.0% of these atoms have undergone a quantum jump to the ground state. You may want to review (Pages 1198 - 1200). Part A How many photons have been emitted? ΥΠ ΑΣφ ? photons Submit Previous Answers Request Answer X Incorrect; Try Again; 5 attempts remaining Part B What is the lifetime of the excited state? ην ΑΣφ ? ns Submit Request Answer
The most probable thermal distribution for the states of a system of particles is defined by having the probability of the th state, P₁, proportional to... the number of particles, N Oits Boltzmann factor O volume O pressure O the number of moles, n O temperature ►
In discussing molecular rotation, the quantum num- ber J is used rather than 7. Using the Boltzmann distribution, calculate nj/no for ¹H³5Cl for J = 0, 5, 10, and 20 at T = 1025 K. Does ny/no go through a maximum as J increases? If so, what can you say about the value of J corre- sponding to the maximum?
·Shown here is the visible part of the spectrum of some gas. There are 11 lines. There could be 6. more, they just aren't in the wavelength range of the spectrum. The wavelength increases toward the right. :.. de f gh k (a) Which line or lines correspond(s) to the two closest spaced energy levels? Explain. (b) Which line or lines correspond(s) to the two farthest spaced energy levels? Explain. (c) What is the minimum number of energy levels in an atom of the gas that could produce the lines in this spectrum? Explain.
If density of mercury is 13600 kg/ m = 9.8 m/s?. Find the energy of translation 3 and g %3D per cubic metre of oxygen at N.T.P.
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The infinitisimal work done when extending a rod is given by SW = fdL. Which of the following Maxwell relations is derived from the internal energy? Select one: a. Ob. ² C. ○ d. Ꭲ (5) S - (355) f (F), = (²), T (²7) ₂ = ( 5 ) ₁ as S (2/²)₁ = − ( ³ ) ₁

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