The wavelength of the electron with velocity 1.096 × 10 6 m/s has to be determined. Also, the wavelength of the electron has to be compared with circumference of orbit with n equals to 2. Concept Introduction: de Broglie established a relation for particles of matter that they also can behave as a wave and has a wavelength. The wavelength of the particle is inversely related to its mass. The smaller the mass, the larger will be wavelength. The expression given by the de Broglie is as follows: λ = h m v (1) Here, λ is a wavelength of particle. h is a Plank’s constant. m is a mass of particle. v is a velocity of mass.

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Chapter 7, Problem 7.44QE

Interpretation Introduction

Interpretation:

The wavelength of the electron with velocity 1.096×106 m/s has to be determined. Also, the wavelength of the electron has to be compared with circumference of orbit with n equals to 2.

Concept Introduction:

de Broglie established a relation for particles of matter that they also can behave as a wave and has a wavelength. The wavelength of the particle is inversely related to its mass. The smaller the mass, the larger will be wavelength.

The expression given by the de Broglie is as follows:

λ=hmv (1)

Here,

λ is a wavelength of particle.

h is a Plank’s constant.

m is a mass of particle.

v is a velocity of mass.

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