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The frequency of the photon is 4.92 1014 Hz.
what is the energy of a photon that has a frequency of 5.0x1014 Hz?
for a photon energy= Planks Constant * frequency and frequency= speed of light/wavelength so E= hc/(wavelength) h= 6.63E-34 J/s c= 3E8 m/s Plug n' Chug
3.905x10^-19 J
Energy of a photon of this wave would be (planck's constant) ( frequency) E = hf = 5.46 * 10-22 J So to find the energy of the whole wave, multiply the energy of a photon to the no. of photons in a wave.
The frequency of the photon is 4.92 1014 Hz.
what is the energy of a photon that has a frequency of 5.0x1014 Hz?
for a photon energy= Planks Constant * frequency and frequency= speed of light/wavelength so E= hc/(wavelength) h= 6.63E-34 J/s c= 3E8 m/s Plug n' Chug
A photon with energy 3.0 x 10-19 J A photon with wavelength 525 nm A photon with frequency 7.6 x 1014 Hz A photon with frequency 2 x 1015 Hz
3.905x10^-19 J
4.25 10-19 j
8.3 x 1017 Hz
If the change in energy of electron is totally exhibited as a photon then the energy = h times frequency. h = 6.626 x 10 to -34 J s Simply multiply h and frequency you would get the energy in joule
Energy of a photon of this wave would be (planck's constant) ( frequency) E = hf = 5.46 * 10-22 J So to find the energy of the whole wave, multiply the energy of a photon to the no. of photons in a wave.
2.96 x 10^-19 J
4.92 x 10^14 Hz
4.92 x 10^14 Hz