the higher the frequency the higher the energy
the higher the frequency the higher the energy
The greater the energy, the larger the frequency involved.
the higher the frequency, the higher the energy
the higher the energy, the higher the frequency
The higher the frequency, the more excited the photon stream.
E=hv where E is energy, v is frequency, and h is 6.626x10^-34 relates the energy of a photon to the photon's frequency.
Not really much of a similaritiy there but FREQUENCY and energy there is. the higher the frequency the greater the energy I guess it could be the same with wavelenghth though
the higher the frequency, the higher the energy
the higher the energy, the higher the frequency
the higher the frequency, the higher the energy (or visa versa).
The higher the frequency, the more excited the photon stream.
E=hv where E is energy, v is frequency, and h is 6.626x10^-34 relates the energy of a photon to the photon's frequency.
Wavelength and frequency are inversely proportional.
Not really much of a similaritiy there but FREQUENCY and energy there is. the higher the frequency the greater the energy I guess it could be the same with wavelenghth though
The energy is E=hf = hc/w where f is frequency, c is the velocity and w is the wavelength.
Frequency is inversely proportional to wavelength (higher frequency means a shorter wavelength). Frequency is directly proportional to the energy of the wave (higher frequencies correspond to higher energies).
Frequency has a great relationship with energy. The higher the amount of energy the higher the frequency will be for example.
The greater the energy,the larger the frequency&the shorter (smaller) the wavelength.Given the relationship between wavelength&frequency - the higher the frequency,the shorter the wavelength-it follows that short wavelengths are more energetic than long wavelengths.
The relationship between frequency and energy of electromagnetic radiation was first described by the theoretical physicist Max Planck. He stated that the energy (E) of a single photon is directly proportional to the frequency of its associated electromagnetic wave (v). The coefficient of this proportionality is the Planck Constant (h). The relationship between frequency and energy is thus defined:E = hvThe value of h is 6.62606957(29)×10−34 joule-seconds.Since the frequency of light, v, can be defined as v = c/λ, we can re-write the energy calculation as:E = (hc)/λNote that these definitions are only true for electromagnetic radiation; the proportionality of frequency and energy in other types of waves is also true, but the relationship is not defined by the Planck constant in such cases.