That is correct and they are measured in cubic units.
This is not a valid conversion. Cubic units is a measure of volume while square units is a measure of area. Generally, volume is determined by multiplying length x width x depth. Area is normally determined by multiplying length x width.
This is not a valid conversion. Cubic units is a measure of volume while square units is a measure of area. Generally, volume is determined by multiplying length x width x depth. Area is normally determined by multiplying length x width.
This is not a valid conversion. Cubic units is a measure of volume while square units is a measure of area. Generally, volume is determined by multiplying length x width x depth. Area is normally determined by multiplying length x width.
There's no relationship between the frequency and the medium. The frequency of a wave is determined by the source. Once the wave leaves the source and sets out on its journey, the frequency doesn't change, regardless of what kind of stuff the wave encounters and has to travel through.
The mean of a binomial probability distribution can be determined by multiplying the sample size times the probability of success.
by multiplying its frequency
by multiplying its frequency
It is determined by the mechanism that propagates the wave, and the properties of the medium that carry out the propagation.
No, the amplitude of a wave does not affect the wavelength or wave speed. The wavelength is determined by the frequency of the wave, while the wave speed is determined by the medium through which the wave is traveling. Amplitude simply represents the maximum displacement of particles in the wave.
the energy of the wave brah
the energy of the wave brah
the velocity of the wave -apex
the strength or volume of the sound wave :)
the strength or volume of the sound wave :)
No. Aplitude is the height of the wave. Frequency and wavelength can be used to calculate the speed of the wave by multiplying them together (if the units are appropriate).
A sound wave's pitch is determined by its frequency; that is its cycles per unit of time. The sound wave's intensity or volume is determined by its amplitude; the maximum crest of a sound wave.