Your terminologies are inconsistent. Wave lengths are not high and low. They are long and short. Short wave (UHF) radio for example.
There are two wave characteristics that can be termed high and low: amplitudes and frequencies.
Assuming group S wave characteristics (e.g., water and light beam waves) the higher frequency and higher amplitude waves carry the most energy. Ditto for group P wave characteristics (e.g., seismic waves).
The shorter the wavelength, the higher the frequency, and the higher the energy, so X-rays carry more energy than radio waves.
The wave with the shorter wavelength will transmit more energy than the one with the longer wavelength if two waves have the same amplitude and same speed but differ in wavelength. The energy transmitted by the shorter wavelength will normally be four times more than the energy transmitted by the longer wavelength.
Yes. Energy is inversely proportional to wavelength. Shorter wavelength = more energetic.
A high energy light will have a shorter wavelength than a low energy light. If the wavelength goes down, then the frequency goes up. When calculating energy in the equation, E=hv, frequency (v) is the variable, not the wavelength. So in the equation, if you wanted a more energy (E), you would have the frequency be large. For the frequency to be big, then the wavelength has to be low.
The shortest wavelengths have the most energy because it has the highest frequency. A high energy light will have a shorter wavelength than a low energy light. If the wavelength goes down, then the frequency goes up. When calculating energy in the equation, E=hv, frequency (v) is the variable, not the wavelength. So in the equation, if you wanted a more energy (E), you would have the frequency be large. For the frequency to be big, then the wavelength has to be low. So no UV light doesn't have the most energy Gamma rays do though.
The shorter the wavelength, the higher the frequency, and the higher the energy, so X-rays carry more energy than radio waves.
The wave with the shorter wavelength will transmit more energy than the one with the longer wavelength if two waves have the same amplitude and same speed but differ in wavelength. The energy transmitted by the shorter wavelength will normally be four times more than the energy transmitted by the longer wavelength.
A high energy light will have a shorter wavelength than a low energy light. If the wavelength goes down, then the frequency goes up. When calculating energy in the equation, E=hv, frequency (v) is the variable, not the wavelength. So in the equation, if you wanted a more energy (E), you would have the frequency be large. For the frequency to be big, then the wavelength has to be low.
Yes. Energy is inversely proportional to wavelength. Shorter wavelength = more energetic.
A high energy light will have a shorter wavelength than a low energy light. If the wavelength goes down, then the frequency goes up. When calculating energy in the equation, E=hv, frequency (v) is the variable, not the wavelength. So in the equation, if you wanted a more energy (E), you would have the frequency be large. For the frequency to be big, then the wavelength has to be low.
Energy varies with the wavelength. The shorter the wavelength the higher the energy. Ultraviolet much more energetic than red light.
Radio waves are longer than X-rays and because energy is inversely proportional to wavelength, X-Rays have more energy. The formula is 1.25uevm/wavelength, that is the energy is 1.25 micro electron volt divided by the wavelength in meters.
Yes, due to the energy of photons/electromagnetic particles being determined by the equations below: E= hv=hc(1/v)= hc/wavelength. Where E= energy, v= frequency in Hz, h= Planck's constant, c= speed of light Electrons have a very short wavelength, and a very high frequency, thus they have much more energy than a beam of light.
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.
if the photon energy is increased , wavelength is decrasing for this formulas E=hv=hc/λ and also we can give an example red colors has so high wavelength than purple . Therefore energy of red colors photon is bigger than other and efficiency high
The shortest wavelengths have the most energy because it has the highest frequency. A high energy light will have a shorter wavelength than a low energy light. If the wavelength goes down, then the frequency goes up. When calculating energy in the equation, E=hv, frequency (v) is the variable, not the wavelength. So in the equation, if you wanted a more energy (E), you would have the frequency be large. For the frequency to be big, then the wavelength has to be low. So no UV light doesn't have the most energy Gamma rays do though.
Yes. The wavelength of radiation is w=hc/Energy. Gamma energy is larger than infrared energy, thus has shorter wavelength.