Short wavelengths has more energy. (X-rays Gamma rays belongs to this category.) Long wavelengths has less energy (radio waves and light belongs to this category). I hope this would be enough.
Short wavelength wave carry not energy (in proportion to their frequency.)
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.
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.
shorter wavelength
Short wavelength wave carry not energy (in proportion to their frequency.)
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.
The shorter the wavelength, the higher the frequency, and the higher the energy, so X-rays carry more energy than radio waves.
E = hC/ λwhere h is Planck's constantc is speed of lightλ is wavelengthHence,Energy is inversely proportional to wavelengthSo short wavelength has more energy than long wavelength!!
Scattering of light
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.
No. The speed of light is the same for long wave and short wave light. c=fw where w is the wavelength and f is the frequency. The speed c is a constant. The frequency is different for different wavelengths. High frequency for short waves and low frequency for long waves.
shorter wavelength
Yes. Energy is inversely proportional to wavelength. Shorter wavelength = more energetic.
Longer wavelength less energy and shorter wavelength equals more energy. This is because velocity (speed)=frequency x wavelength. And te velocity of all EM waves is the speed of light. we know the expression- frequency=speed of light(c)/wavelength Energy is given by- E=h*frequency=h*c/wavelength {h=Planck's constant} so,energy is directly proportional to frequency and inversly proportional to wavelength...that is energy increases with increase in frequency and decreases with increase in wavelength. example:-red color has more wavelength and hence has less energy.
Energy varies with the wavelength. The shorter the wavelength the higher the energy. Ultraviolet much more energetic than red light.
In our Universe, EM radiation can only come in discrete chunks called "photons." The energy of each individual photon depends on the frequency of the EM radiation. Frequency depends on wavelength (or vice-versa): the shorter the wavelength, the higher the frequency. Thus, short wavelength photons have more energy. That's just how our Universe operates, whether or not we like it.