Explanation In one dimensional harmonic oscillator, the energy difference between ground and first excited state is, Δ E = ℏ ω (1) Here, Δ E is energy difference between ground and first excited state. ℏ is reduced Planck’s constant. ω is angular frequency. The angular frequency of mass spring system is given by ω = k m (2) Here, ω is angular frequency. k is spring constant. m is mass of hydrogen atom. Substitute equation (2) in equation (1), then rearrange it to the spring constant. Δ E = ℏ k m ( Δ E ) 2 = ℏ 2 k m k = m ( Δ E ) 2 ℏ 2 (3) Substitute 1.008 u for m , 0.358 eV for Δ E , 4

Essentials University Physics, Volume 1 and 2 - With Modified MasteringPhysics Access

3rd Edition

ISBN: 9780134235448

Author: Wolfson

Publisher: PEARSON

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Chapter 35, Problem 46P

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The effective spring constant.

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Chapter 35, Problem 45P

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The effective spring constant.

Solution Summary: The author explains the effective spring constant in one dimensional harmonic oscillator. The angular frequency of mass spring system is given by omega.

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