Energy(E) = hn
n=c\l
where h is planck's constant
n is frequency
c is velocity
and is wavelength
the frequency is inversely proportional to wavelength.
Now, according to this equation as frequency increases the wavelength decreases. Hence, high frequency has short wavelength.
The answer depends on the medium in which the wave is traveling. If the medium is non-dispersive, all frequencies will travel at the same speed (the group delay and phase delay will be the same). If the wave is traveling in a dispersive medium, the frequency of the wave will affect the speed (and the group delay and phase delay will not be the same). The type of dispersive medium also determines whether high frequency waves will travel faster or slower than lower frequency waves.
A good example of light dispersion is demonstrated using a prism. In a prism, the higher frequencies travel at a different speed, and have a different refractive index than lower frequencies, this is how white light is split into its colored components using a prism.
It isn't clear what type of waves you are talking about. The situation varies, depending on the type of waves, as well as the range of frequencies considered.
there more powerful
yes they would move faster. if you notice that when you run for a longer period of time your heartbeat would increase and it would be a lot faster than if you were sitting down for a long period of time.
The physical length, short wavelengths are shorter than long wavelengthsThe frequency, short wavelengths are higher frequency than long wavelengthsThe energy per photon, short wavelengths have more energy per photon than long wavelengths
Visible light has higher frequency than that of infra red radiations. The order of electro magnetic waves in the increasing order of frequency are as follows: Radio waves, micro waves, infra red, ROY G BIV (visible region), ultraviolet, X-ray and gamma ray.
No it will move slower. Waves move faster in warm air and slower in cold air.
molecules (or atoms) move faster at higher temperatures. higher temperature is a measure of higher kinetic energy.
Frequency
sorta, compressions move at a slightly higher frequency, which is indirectly related to speed.
yes it does!
they are a high frequency
P-waves move around 3 km/s faster than s-waves.
Yes! All sound waves, regardless of pitch move at the same speed provided they are in the same medium. Differences in frequency cause the sound to be perceived as higher or lower. A high pitched sound has a higher frequency and shorter wavelength while low pitched sounds have lower frequencies and longer wavelengths
The physical length, short wavelengths are shorter than long wavelengthsThe frequency, short wavelengths are higher frequency than long wavelengthsThe energy per photon, short wavelengths have more energy per photon than long wavelengths
Visible light has higher frequency than that of infra red radiations. The order of electro magnetic waves in the increasing order of frequency are as follows: Radio waves, micro waves, infra red, ROY G BIV (visible region), ultraviolet, X-ray and gamma ray.
Microwaves ARE radio waves, and they move with the same speed as all other electromagnetic waves.
no
No it will move slower. Waves move faster in warm air and slower in cold air.
By "rf signals", the question is referring to "radio frequency waves", "radio waves", or "waves" in general. This phenomenon, unique to waves, is called diffraction. Higher frequency waves diffract less than lower frequency waves. This is why you hear the bass through walls or cars when you can't hear the treble. This also happens with waves of any kind, such as liquids. AM frequency radio is generally better for cities with big buildings because the waves have a lower intensity, and therefore can "warp around" the buildings. FM frequency radio does not "wrap around" as well.
No. Surface waves are slower than both P and S-waves.