As wavelength decreases, energy increases, because the two are inversely related. Conversely, as wavelength decreases, frequency increases.
They differ in frequency. (That's exactly the same thing as saying that they differ in wavelength, since frequency and wavelength are firmly connected.) (That's also the same thing as saying that they differ in the quantity of energy carried by each photon, since the amount of energy carried by each photon is firmly connected to frequency.)
lowest wavelength
Energy does not effect WAVELENGTH, it effects the AMPLITUDE of the Wave.
If the light enters the prism at an angle the light will bend. The amount the light will bend depends on its wavelength. Each wavelength is bent a different amount effectively splitting the light into its constituent wavelengths. Visible light (390 - 750 nm) will split into a rainbow. see link below
diffraction wavelength
"What happens to the amount of oxygen carried by hemoglobin as temperature increases?" "What happens to the amount of oxygen carried by hemoglobin as temperature increases?" "What happens to the amount of oxygen carried by hemoglobin as temperature increases?"
That will depend whether the microscope is designed to cope with the new wavelength as well as it did with the old. For example, ordinary visible-light microscopes are useless for ultraviolet. The absolute limit to resolving power with perfect optics is about quarter of a wavelength but real microscopes fall short of this.
decreased
decreased
The amount of fluid removed is decreased
the amount of scattering does not depend on wavelength..
wavelengths are the distance from where a wave starts and finishes, whereas frequency is the amount of times this happens
If 440 is decreased by 65 percent the new amount is 154.
They differ in frequency. (That's exactly the same thing as saying that they differ in wavelength, since frequency and wavelength are firmly connected.) (That's also the same thing as saying that they differ in the quantity of energy carried by each photon, since the amount of energy carried by each photon is firmly connected to frequency.)
lowest wavelength
Cl2 amount should be increased.So equillibrium moves to left.
The energy of the photons decreases as the wavelength increases