The energy change of neon atom that emits a photon with wavelength 640 nm has to be determined. Concept Introduction: The wave nature of any light can be described by its frequency, wavelength, and amplitude. The wavelength ( λ, lambda ) of the light is defined as the distance between two successive peaks. Its SI unit is meter. The frequency ( v ) is defined as the number of waves that can pass through the one point in 1 second. Its SI unit is s − 1 . The amplitude ( A ) of the light wave is maximum height of a wave. The relation between frequency ( v ) and wavelength ( λ ) of the light is as follows: v = c λ (1) Here, c is the speed of light and its value is 3.00 × 10 8 m/s . The relation between the energy ( E ) of a photon and frequency ( v ) is as follows: E = h v (2) Here, h is known as Plank’s constant and its value is 6 .626 × 10 − 34 J ⋅ s .

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Chapter 7, Problem 7.34QE

Interpretation Introduction

Interpretation:

The energy change of neon atom that emits a photon with wavelength 640 nm has to be determined.

Concept Introduction:

The wave nature of any light can be described by its frequency, wavelength, and amplitude. The wavelength (λ, lambda) of the light is defined as the distance between two successive peaks. Its SI unit is meter. The frequency (v) is defined as the number of waves that can pass through the one point in 1 second. Its SI unit is s−1. The amplitude (A) of the light wave is maximum height of a wave.

The relation between frequency (v) and wavelength (λ) of the light is as follows:

v=cλ (1)

Here, c is the speed of light and its value is 3.00×108 m/s.

The relation between the energy (E) of a photon and frequency (v) is as follows:

E=hv (2)

Here, h is known as Plank’s constant and its value is 6.626×10−34 J⋅s.

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