Waves have other properties like Phase and Longitudinal or Transverse mode..
No. Amplitude and frequency of a wave are not related.Either one can change with no effect on the other one.
-- Frequency and wavelength of a wave are inversely proportional. So knowing one of them determines what the other one must be. -- Amplitude has no relationship to frequency or wavelength, and no effect on them.
There's no connection between amplitude and frequency. Either one can change, and often does, with absolutely no effect on the other.
There's no connection between amplitude and frequency. Either one can change, and often does, with absolutely no effect on the other.
No they are independent of each other.
A sound that's produced by a single wave at a constant frequency and with no overtones is called pure sound. This means that regardless of other characteristic properties such as amplitude or phase, the wave consists of a single frequency.
Velocity of wave = frequency * wavelength (the universal wave equation does not involve amplitude) There is no direct relationship between the amplitude and the wavelength of a wave and therefore if the amplitude increases the wavelength will not necessarily change.
amplitude is the height of the wave from the middle point, it can be either from the middle to the bottom, or middle to the top of the wave. the frequency is how frequent the crests of each wave (the amplitude) pass a given point. so how they relate is, the highest point/lowest point is the crest, and the that is the amplitude is the ends of the crests ============================================ (In other words, to paraphrase the above remarks, there is no relationship between the amplitude and frequency of a wave. Either characteristic may be changed with no effect on the other.)
Frequency is 1 of 3 variables that determine wave energy. The other two are amplitude and velocity.
If waves are going opposite directions: If the two waves have the same amplitude and frequency, they will cancel each other out, resulting in a flatline. If one has a greater amplitude, it will "absorb" the smaller one and the result will be a wave with amplitude of the difference between the two original waves, going in the direction of the first wave with greater amplitude. If they're going the same direction: If the waves have the same frequency and phase, the will simply add on to each other, resulting in a larger wave. If the two have the same frequency but different phase, some parts of the waves will be offset to result in a wave with different amplitude but same frequency (depending how off-phase the waves are). If they have the same frequency and exactly opposite phases, the two will offset into a flatline. If they have different frequency, then it will result in a completely different wave with different frequency, phase, and amplitude.
Sounds differ by amplitude, frequency and number of frequencies contained in a sound.
Amplitude defines how powerful waves are. Frequency and wavelength are measures of how often the wave fluctuates or far the wave is from crest to crest , These are related and can be calculated from each other if you know how fast the waves travel.