eV Problem 2 (30 points) A microscopic spring-mass system has a mass m = 2 x 10-26 kg and the energy gap between the 2nd

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eV Problem 2 (30 points) A microscopic spring-mass system has a mass m = 2 x 10-26 kg and the energy gap between the 2nd

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Ev Problem 2 30 Points A Microscopic Spring Mass System Has A Mass M 2 X 10 26 Kg And The Energy Gap Between The 2nd 1
Ev Problem 2 30 Points A Microscopic Spring Mass System Has A Mass M 2 X 10 26 Kg And The Energy Gap Between The 2nd 1 (61.36 KiB) Viewed 13 times
Ev Problem 2 30 Points A Microscopic Spring Mass System Has A Mass M 2 X 10 26 Kg And The Energy Gap Between The 2nd 2
Ev Problem 2 30 Points A Microscopic Spring Mass System Has A Mass M 2 X 10 26 Kg And The Energy Gap Between The 2nd 2 (51.39 KiB) Viewed 13 times
eV Problem 2 (30 points) A microscopic spring-mass system has a mass m = 2 x 10-26 kg and the energy gap between the 2nd and 3rd excited states is 8 eV. a) (2 points) Calculate in joules, the energy gap between the 1st and 2nd excited states: E= 8 J b) (2 points) What is the energy gap between the 4th and 7th excited states: E= 1.5024*10^20 c) (1 point) To find the energy of the ground state, which equation can be used ? (check the formula_sheet and select the number of the equation) 36 - d) (1 point) Which of the following substitutions can be used to calculate the energy of the ground state? (6.582x10-16) 2 O2 x 8 (6.582 x 10-16)(8) 018 0}(6.582 x 10-16)(8) e) (3 points) The energy of the ground state is: E= 4 eV f) (1 point) To find the stiffness of the spring, which equation can be used ? (check the formula_sheet and select the number of the equation) 37

g) (1 point) Which of the following substitutions can be used to calculate the stiffness of the spring? 6582x10-16 2x10-26 SOX10-16 2x10-26 8 02- (6.582x10-16) ? 0(2 x 10-20) ( 6582X10*** eV 8 O(2 10-26 6,582x10-16 O(2 x 10-26) (6.582 X 10-16)2 O(2 x 10-26) (8) h) (3 points) The stiffness of the spring is: K = 2954569.523 (N/m) i) (2 point) What is the smallest amount of vibrational energy that can be added to this system? E = 7.997 1) (5 points) What is the wavelength of the smallest energy photon emitted by this system? A = 1.586814*10^-24 m k) (2 points) If the stiffness of the spring increases, the wavelength calculated in the previous part increases 1) (2 points) If the mass increases, the energy gap between successive energy levels decreases m) (5 points) What should the stiffness of the spring be, so that the transition from the 3rd excited state to the 2nd excited state emits a photon with energy 8.5 eV?K= 3335432.001 N/m
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