No matter what the wavelength and frequency are, their product is always
the same number ... the speed of the wave. So as you move toward shorter
wavelengths, the frequency must increase, to keep their product constant.
Wavelength and frequency are proportional to each other. Dividing 300 by the wavelength gives the frequency. Conversely - dividing 300 by the frequency yields the wavelength.
No, for electromagnetic waves. Both waves travel at the speed of light c=fw. The shorter wavelength has a higher frequency and vice versa.
If the wavelength (λ) goes down, then the frequency (v) goes up. So waves with a shorter wavelenth have a higher frequency than those with a longer wavelength.
I could say that shorter wavelengths move faster, but that would be wrong. The truth is that all wavelengths/colors travel at the same speed.
no the bob on the shorter one has less distance per period to travel
Infra-red waves have a wavelength which is shorter than microwaves, but still longer than visible light. Infra-red waves are basically heat energy emitted by hot objects which travel in the form of electromagnetic waves.
sound travels faster through a solid because the particles are right next to each other and so it is faster to vibrate whereas air particles are further apart and take longer to travel. So yes it would travel through the ground faster than air.
All light travel at the same speed.
Normal dispersion occurs where shorter wavelengths travel slower than longer wavelengths. Anomalous dispersion occurs when shorter wavelengths travel faster than longer wavelengths.The zero dispersion point for optic fibres is around 1550 nm, which is why most communications systems use this wavelength.
I could say that shorter wavelengths move faster, but that would be wrong. The truth is that all wavelengths/colors travel at the same speed.
no the bob on the shorter one has less distance per period to travel
no the bob on the shorter one has less distance per period to travel
In a perfect vacuum, all wavelengths travel the same distance. In atmosphere, longer wavelengths (red) travel further than shorter wavelengths (blue) due to a phenomenon called Rayleigh scattering. That is why the sky is blue, and the setting sun is red. Similarly, in interstellar space (when we view light from distant stars), shorter wavelengths (blue) do not travel as far as longer wavelengths (red) due to a phenomenon called interstellar extinction. See the Related Links below for Wikipedia articles on Rayleigh scattering and interstellar extinction.
shorter
It means that if you travel for an hour you will have covered a distance of 60 miles. If you travel for a longer or shorter time you will cover a proportionally longer or shorter distance.
If you travel 60 mph, you can go 798 miles in 13 hours, 18 minutes. Faster shorter, slower longer.
No. Longer wavelengths travel further. This is true for any media, even air. This is why you see the red light further than the green light.
It depends on the planet. The planets orbiting closer to the sun than earth (Mercury and Venus) have shorter years, because they have smaller orbits, and travel faster. The planets further from the sun (Mars, Jupier, Saturn, Uranus, and Neptune) have longer years because they have larger orbits and travel slower.
Because gamma rays are exactly the same thing that light is, only with shorter wavelengths.
Short fragments are able to move faster (longer = heavier = slower).