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You are asking two Questions at once: How does the energy of the different waves of the spectrum vary with frequency? and How does the energy of the different waves of the spectrum vary with wave length? f (Frequency) = c / Lambda.
Electromagnetic waves of higher energy have a higher frequency and a smaller wavelength.Electromagnetic waves of higher energy have a higher frequency and a smaller wavelength.Electromagnetic waves of higher energy have a higher frequency and a smaller wavelength.Electromagnetic waves of higher energy have a higher frequency and a smaller wavelength.
There is no upper limit to how much energy (and frequency) an electromagnetic wave can have. The highest frequency waves are called gamma radiation.There is no upper limit to how much energy (and frequency) an electromagnetic wave can have. The highest frequency waves are called gamma radiation.There is no upper limit to how much energy (and frequency) an electromagnetic wave can have. The highest frequency waves are called gamma radiation.There is no upper limit to how much energy (and frequency) an electromagnetic wave can have. The highest frequency waves are called gamma radiation.
Yes, energy transfer for mechanical waves is dependant on frequency as well as amplitude. Energy of electromagnetic waves, however, does not rely on frequency but solely on amplitude.
By increasing its amplitude and/or frequency.
Your question makes no sense.
You are asking two Questions at once: How does the energy of the different waves of the spectrum vary with frequency? and How does the energy of the different waves of the spectrum vary with wave length? f (Frequency) = c / Lambda.
Visible light has a higher frequency, a higher energy per photon, and a smaller wavelength, compared to infrared.
Higher energy is carried by electromagnetic radiation with higher frequency (shorter wavelength). Of the items listed in the question, the one with the highest frequency (shortest wavelength) is blue light.
Electromagnetic waves of higher energy have a higher frequency and a smaller wavelength.Electromagnetic waves of higher energy have a higher frequency and a smaller wavelength.Electromagnetic waves of higher energy have a higher frequency and a smaller wavelength.Electromagnetic waves of higher energy have a higher frequency and a smaller wavelength.
The energy of infrared waves is greater than the energy of radio waves. This is because infrared waves has a smaller wavelength compared to radio waves. The smaller the wavelength, the higher the energy.
Frequency and energy are related by the following: E = hf where h is Planck's constant, E is the energy in J, and f is the frequency in Hz. Remember that the product of any wavelength and its frequency is equal to the speed of light.
if wave amplitudes are equal ,will high frequency waves carry more or less energy than low frequency waves
There is no upper limit to how much energy (and frequency) an electromagnetic wave can have. The highest frequency waves are called gamma radiation.There is no upper limit to how much energy (and frequency) an electromagnetic wave can have. The highest frequency waves are called gamma radiation.There is no upper limit to how much energy (and frequency) an electromagnetic wave can have. The highest frequency waves are called gamma radiation.There is no upper limit to how much energy (and frequency) an electromagnetic wave can have. The highest frequency waves are called gamma radiation.
frequency
Infrared waves are shorter than radio waves and longer than visible light waves.
If it is a mechanical wave, then the lower amplitude waves would have less energy. If you are talking about electromagnetic waves, then higher frequency waves (shorter wavelength) have more energy, and lower frequency waves have less energy.