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What wave would have more enery one with a long wavelength or a short wavelength?
Both a wave with long wavelength and a wave with short wavelength can have a lot of energy, or little energy.Specifically in the case of electromagnetic waves, a short wavelength corresponds to high energy - but this is only the energy PER PHOTON. But note that each of such waves usually consists of a lot of photons.
Is it possible to draw a high frequency wave with long wavelength?
It depends on what you consider high frequency and long wavelength. However, as frequency increases, wavelength decreases and vice versa. In fact, frequency is inversely proportional to wavelength.
Explain the effects on frequency wavelength and energy as you move across the spectrum?
As you move from left to right across the electromagnetic spectrum, the frequency increases, the wavelength decreases, and the energy of the electromagnetic waves increases. This means that on the left side, you have low-frequency, long-wavelength, low-energy waves like radio waves, while on the right side, you have high-frequency, short-wavelength, high-energy waves like gamma rays.
What wavelength has the least energy?
The wavelength with the least energy is in the radio wave frequency range. Radio waves have long wavelengths and low frequencies, which correspond to low energy levels.
Does short-wavelength light carry more energy or less energy than long-wavelength light?
Short-wavelength light carries more energy than long-wavelength light. This is because energy is directly proportional to frequency, and shorter wavelengths have higher frequencies. This relationship is described by Planck's equation, E = h*f, where E is energy, h is Planck's constant, and f is frequency.
What wave would have more enery one with a long wavelength or a short wavelength?
Both a wave with long wavelength and a wave with short wavelength can have a lot of energy, or little energy.Specifically in the case of electromagnetic waves, a short wavelength corresponds to high energy - but this is only the energy PER PHOTON. But note that each of such waves usually consists of a lot of photons.
Is it possible to draw a high frequency wave with long wavelength?
It depends on what you consider high frequency and long wavelength. However, as frequency increases, wavelength decreases and vice versa. In fact, frequency is inversely proportional to wavelength.
Which color of light changes directions the least?
The high energy narrow wavelength change direction the least. It will be the violet - blue colour light. The red light had the least energy, long wavelength would diffract the most.
Explain the effects on frequency wavelength and energy as you move across the spectrum?
As you move from left to right across the electromagnetic spectrum, the frequency increases, the wavelength decreases, and the energy of the electromagnetic waves increases. This means that on the left side, you have low-frequency, long-wavelength, low-energy waves like radio waves, while on the right side, you have high-frequency, short-wavelength, high-energy waves like gamma rays.
What wavelength has the least energy?
The wavelength with the least energy is in the radio wave frequency range. Radio waves have long wavelengths and low frequencies, which correspond to low energy levels.
Does short-wavelength light carry more energy or less energy than long-wavelength light?
Short-wavelength light carries more energy than long-wavelength light. This is because energy is directly proportional to frequency, and shorter wavelengths have higher frequencies. This relationship is described by Planck's equation, E = h*f, where E is energy, h is Planck's constant, and f is frequency.
How do the types of energy that make up the EM spectrum differ?
The types of energy in the electromagnetic (EM) spectrum differ in terms of their wavelength and frequency. The spectrum ranges from low energy, long-wavelength radio waves to high-energy, short-wavelength gamma rays. Each type of energy interacts with matter differently and has unique properties and uses.
Do an x-ray has high energy long wavelength?
Depends what you consider 'high'. The frequency of X-rays is higher than the frequency of radio, light, Middle-C, and a subscription to Scientific American, but lower than the frequency of some other types of electromagnetic radiation.
Does a high wavelength have more energy than a low wavelength?
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).
How does the frequency of radiant energy relate to the absolute temperature of the radiating source?
A low temp source emits low-frequency, long wavelength waves. A medium temp source emits medium frequency, medium wavelength waves. A high temp source emits high frequency, short wavelength waves.
Which wavelength carries more energy short or long?
Shorter wavelengths carry more energy than longer wavelengths. This is because the energy of a photon is inversely proportional to its wavelength, as described by the equation E = hc/λ, where E is energy, h is Planck's constant, c is the speed of light, and λ is the wavelength. Thus, shorter wavelengths correspond to higher energy photons.
A low energy electromagnetic wave would also have?
the lowest frequency Lester was here
