V[m/sec]=Ni[Hz]*Lamda[m]
Hz=1/sec
>>
V=12*2.4=28.8[m/sec]
You can use the following equation to solve that:speed = wavelength x frequency
Just divide the speed by the wavelength.
It is 6.166... hertz.
Depends what the frequency is.
Wave length.
The distance between the either the crests or troughs of one cycle in a wave.
Frequency: number of cycles per second. Period: the distance between two crests. The period depends not only on the frequency, but also on the wave's speed.
Wavelength is the distance between two consecutive wave crests.
Depends what the frequency is.
Nothing happens. Distance between crests is a measure of frequency; amplitude is a measure of the strength, the height of the wave, or auditory volume of the signal.
Wave length.
The distance between the either the crests or troughs of one cycle in a wave.
The inverse of frequency is the period, which is the distance between two consecutive crests. If you are given frequency (f), period = 1/f
Frequency: number of cycles per second. Period: the distance between two crests. The period depends not only on the frequency, but also on the wave's speed.
The distance between crests( like in ocean waves) is referred to as it's wave length. Wave length also has direct effect on it's frequency, how often the wave repeats.
Wavelength is the distance between two consecutive wave crests.
Wavelength is the measure of distance between adjacent crests or troughs.
Wavelength is the measure of distance between adjacent crests or troughs.
the distance between the crests of two succesive waves is called the wavelength. It is directly related to the frequency of the wave
The distance between consecutive crests is called the "wavelength".