Suppose the atoms in a receding cloud have two energy levels separated by an energy corresponding o 4863 Angstroms. The observer will see emissiom at a greater or less wavelength.
probably wavelength
Short Wavelength light
The wavelength of violet light is shorter.
Resolving power of microscope is inversely related to the wavelength of the light used. So shorter the wavelength, greater the resolving power.
The shorter the wavelength of visible light, the higher the frequency and the greater the energy of the photons.
probably wavelength
The greater the energy the shorter the wavelength.
yes
Wavelength of infra red would be greater than that of ultra violet waves.
Short Wavelength light
The shorter the wavelength of a wave, the higher its energy.
Energy is inversely proportional to wavelength: the shorter the wavelength (X-rays, gamma rays) the greater the energy.
False
Good luck, Greater wavelength=TV. frequency= the number of wave cycles(peak, trough, peak) per time unit. The higher the frequency, the more times the wave cycles, and the shorter the wavelength. Greater Energy=Ultraviolet lamp. By Placks constant, E(energy) =h(planck's constant which is the energy of a photon divided by it's frequency) / f(the frequency of that photon). Planck's constant is almost irrelevant, so the greater the frequency, the greater the energy. Greater frequency=Ultraviolet lamp. Planck's constant and light spectrum. Greater Momentum= Ultraviolet lamp. Electron diffraction, Wavelength=h(planck's constant) / momentum. rearrange it as M=h/W. The greater the wavelength, the smaller the momentum, and visa versa.
The wavelength is greater than 300E6/300E9 = 1 mm and the frequency is less than about 300 Gigacycles.
The wavelength of violet light is shorter.
Resolving power of microscope is inversely related to the wavelength of the light used. So shorter the wavelength, greater the resolving power.