7.009 x 10^9 Hz
The equation relating the energy of a photon and its frequency is E = h x f.
E = h x f, where E is energy in Joules (J), h is Planck's constant (6.626 x 10^-34 J* s), and f is the frequency in Hz (1/s).
Known
E=4.644 x 10^-24 J/photon
h=6.626 x 10^-34 J*s
Unknown
f
f = E/h =(4.644 x 10^-24 J/photon)/(6.626 x 10^-34 J*s) =7.009 x 10^9/s = 7.009 x 10^9 Hz
It is 7.0087*109 Hz.
Nope. Radio waves have a long wavelength, which causes them to carry little energy. For future questions about energy and waves, use the formula E=h(c/lambda). E is the energy of the wave, h is plank's constant, c is the speed of light (3x10^8), and lambda is the frequency. Have fun! ^_^
Waves with lower frequency: for example radio waves.
Those are the ones with the highest frequency/shortest wavelength/most energy per photon. Most . . . gamma rays Next most . . . X-rays . . . Least . . . low-frequency radio waves
Visible light and radio waves are both two types of the same radiation (electromagnetic waves). The difference is that visible light has a higher frequency; a higher energy per photon; and a smaller wavelength.
The frequency of a photon is related to its energy byE = hfwhere E is the energy, h is Planck's constant (6.626 x 10-34 Js), and f is the frequency.Solving for the frequencyf = E/hf = (1.369 x 10-24 J)/(6.626 x 10-34 Js) = 2.066 x 109 s-1
E = hf The energy per photon is equal to Planck's constant times the frequency, in this case 6.62606957×10−34 x 107.3x106
Nope. Radio waves have a long wavelength, which causes them to carry little energy. For future questions about energy and waves, use the formula E=h(c/lambda). E is the energy of the wave, h is plank's constant, c is the speed of light (3x10^8), and lambda is the frequency. Have fun! ^_^
Waves with lower frequency: for example radio waves.
Those are the ones with the highest frequency/shortest wavelength/most energy per photon. Most . . . gamma rays Next most . . . X-rays . . . Least . . . low-frequency radio waves
There is no such thing as "long energy" or "short energy". The electromagnetic spectrum is:Radio waves; microwaves; infrared; visible light; ultraviolet; x-rays; gamma rays. In this list, going from left to right: * The energy per photon increases. * The frequency increases. * The wavelength decreases. Thus, for instance, gamma rays have the LARGEST energy per photon; the LARGEST frequency; and the SHORTEST wavelength.
The radio spectrum for communications spans approximately from 150 kHz to 26 MHz. The visible light frequency range is at least 400 THz. No contest -- visible light is at least 15 million times higher in frequency. Energy = Planck's constant * frequency. Hence visible light carries a higher energy.
Visible light and radio waves are both two types of the same radiation (electromagnetic waves). The difference is that visible light has a higher frequency; a higher energy per photon; and a smaller wavelength.
he duble hockey sticks no.
Their wavelength (or frequency), the energy carried by each photon, and the names we give them. Their speeds are all the same.
In the spectrum of electromagnetic radiation the wave property that changes is the frequency. So for example xrays have higher frequency then blue light which has higher frequency then red light which has higher frequency then radio waves etc.
the lowest frequency Lester was here
Their wavelength (or frequency), the energy carried by each photon, and the names we give them. Their speeds are all the same.