The frequency of the wave is 2 Hz. This is calculated by dividing the number of times the wave goes up (8) by the time it takes to complete those cycles (4 seconds). This means the wave completes 2 cycles every second, which corresponds to a frequency of 2 Hz.
The frequency of the wave is 103 Hz. This is calculated by dividing the number of times the wave passes the point (412) by the time it takes (4.0 seconds).
The frequency of a wave is the reciprocal of its period, so if the period is 6 seconds, then the frequency is 1/6 Hz.
The frequency of the wave is 19 Hz, which is calculated by dividing the number of times the wave passes the point by the time it takes: 57 passes / 3.0 seconds = 19 Hz.
The frequency of a wave is the reciprocal of its period. So, if the period of the wave is 5 seconds, the frequency would be 1/5 Hz, which is 0.2 Hz.
Wavelength times frequency equals speed (of the wave). Therefore, unless you also change the speed, if wavelength goes up, frequency goes down, and vice versa.Wavelength times frequency equals speed (of the wave). Therefore, unless you also change the speed, if wavelength goes up, frequency goes down, and vice versa.Wavelength times frequency equals speed (of the wave). Therefore, unless you also change the speed, if wavelength goes up, frequency goes down, and vice versa.Wavelength times frequency equals speed (of the wave). Therefore, unless you also change the speed, if wavelength goes up, frequency goes down, and vice versa.
The frequency of the wave is 103 Hz. This is calculated by dividing the number of times the wave passes the point (412) by the time it takes (4.0 seconds).
Frequency of a wave is how many times a wave passes through by the setting of number of seconds.
4Hz because this wave happens 4 times per second. Hz=1second / frequency.
That is impossible. Speed of wave c = frequency f times wavelength λ. To have a constant speed, the frequency goes up and the wavelength goes down or the frequency goes down and the wavelength goes up.
5 cycles.
The frequency of a wave is the reciprocal of its period, so if the period is 6 seconds, then the frequency is 1/6 Hz.
The frequency of the wave is 19 Hz, which is calculated by dividing the number of times the wave passes the point by the time it takes: 57 passes / 3.0 seconds = 19 Hz.
The frequency of a wave is the reciprocal of its period. So, if the period of the wave is 5 seconds, the frequency would be 1/5 Hz, which is 0.2 Hz.
Wavelength times frequency equals speed (of the wave). Therefore, unless you also change the speed, if wavelength goes up, frequency goes down, and vice versa.Wavelength times frequency equals speed (of the wave). Therefore, unless you also change the speed, if wavelength goes up, frequency goes down, and vice versa.Wavelength times frequency equals speed (of the wave). Therefore, unless you also change the speed, if wavelength goes up, frequency goes down, and vice versa.Wavelength times frequency equals speed (of the wave). Therefore, unless you also change the speed, if wavelength goes up, frequency goes down, and vice versa.
23/2 seconds = 11.5 per second = 11.5 Hz
The period of a wave can be calculated as the inverse of its frequency. In this case, the period would be 1/250 seconds, which is equal to 0.004 seconds.
The reciprocal of the frequency. Since hertz basically means "1 / seconds", this reciprocal is in seconds.