energy
Shorter wavelength indicates higher frequency and higher energy per photon.
This is true. Each photon carries more energy when it has shorter wavelength / higher frequency.
... shorter in wavelength.
In the visible spectrum the color is determined by its' wavelength. The energy of the quantum package is determined by the wavelength. The shorter the wavelength the more power per package.
As a wavelength increases in size, its frequency and energy (E) decrease.
Shorter wavelength indicates higher frequency and higher energy per photon.
This is true. Each photon carries more energy when it has shorter wavelength / higher frequency.
The wavelength gets shorter. If the propagation speed remains the same, the wavelength (L) decreases by the inverse of the frequency f. For electromagnetic waves c = fL is a constant.
... shorter in wavelength.
that depends on the wavelength of the radiation. the shorter the wavelength the more damage it can do.
The wavelength gets shorter.
Ultraviolet and up have shorter wavelengths.
In the visible spectrum the color is determined by its' wavelength. The energy of the quantum package is determined by the wavelength. The shorter the wavelength the more power per package.
As a wavelength increases in size, its frequency and energy (E) decrease.
Yes. The product of the frequency and the wavelength is the speed of the wave.
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.
the wavelength of emission becomes shorter