Concept explainers
(a)
Interpretation:
The frequency of the photon produced by an X-ray machine having an energy of
Concept introduction:
(b)
Interpretation:
The wavelength of the photon with frequency
Concept introduction:
Electromagnetic radiation can be defined as the waves of the electromagnetic field which can propagate through space and carries the electromagnetic radiant energy. Radio waves, microwaves, infrared, light, ultraviolet, X-rays, and gamma rays are some common example of electromagnetic radiations. The relation between the wavelength, energy and frequency of the electromagnetic radiations is as given below:
(c)
Interpretation:
The velocity with de Broglie wavelength of
Concept introduction:
Electromagnetic radiation can be defined as the waves of the electromagnetic field which can propagate through space and carries electromagnetic radiant energy. Radio waves, microwaves, infrared, light, ultraviolet, X-rays, and gamma rays are some common examples of electromagnetic radiation. The relation between the wavelength, energy and frequency of the electromagnetic radiations is as given below:
The de Broglie equation purposed the relation between wavelength and mass of the photon. The mathematical expression for this relation is:
Here:
- v = velocity
- h = Planck’s constant
- λ = wavelength
(d)
Interpretation:
The kinetic energy with a moving electron of velocity
Concept introduction:
Electromagnetic radiation can be defined as the waves of the electromagnetic field which can propagate through space and carries electromagnetic radiant energy. Radio waves, microwaves, infrared, light, ultraviolet, X-rays, and gamma rays are some common examples of electromagnetic radiation. The relation between the wavelength, energy and frequency of the electromagnetic radiations is as given below:
The de Broglie equation purposed the relation between wavelength and mass of the photon. The mathematical expression for this relation is:
Here:
- v = velocity
- h = Planck’s constant
- λ = wavelength
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CHEMISTRY-TEXT
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