Wiki User
∙ 13y agoFrequency is measured in Hertz (Hz), which is the number of wavelengths that pass in one second. Since one wavelength is passing every eight seconds, the frequency is 1/8 Hz.
Wiki User
∙ 13y agoIf one wave completes, or passes a point, every 8 seconds, then the frequency is 1/8 Hz. = 0.125. The dimensions have nothing to do with the frequency.
There isn't enough information in this question. You can calculate the speed of the wave (distance divided by time), which is the frequency times the wavelength. But you still need one of them to find the other.
The period of a wave is defined as the time taken by a wave to complete one oscillation. While, the frequency of a wave is defined as the number of oscillations completed by a wave in one second.
Mathematically, frequency = (1/Period) Conceptually, the period is how long it takes a wave to begin repeating itself. For example, if I start a stopwatch when the wave reaches its peak, and then stop timing when it reaches its next peak, the time on the stopwatch is the period. The frequency is how far the wave gets in 1 second. Some examples: If it take a wave 30 seconds to go through one cycle, the period is 30 seconds. In 1 second, it gets only 1/30 of the way through its cycle. Its frequency is 1/30 then. If a wave repeats itself 10 times in 1 second, its frequency is 10. It's period must be 1/10 of a second.
The relationship to be kept in mind is that the time period, which is the time take for one complete oscillation, is the reciprocal of frequency (the number of oscillations completed in one second). That is, T = 1/f where Period T, is measured in seconds Frequency f, is measured in Hertz. In your specific case, if f = 10 Hz, T = 0.1 s.
If one wave completes, or passes a point, every 8 seconds, then the frequency is 1/8 Hz. = 0.125. The dimensions have nothing to do with the frequency.
The wave frequency would be 1 Hz. This is because 5 crests passing a point in 5 seconds indicates that one crest passes the point every second. Since frequency is measured in cycles per second (Hz), the frequency of the wave would be 1 Hz.
The period of a wave is the time it takes for one complete cycle of the wave. It is calculated as the reciprocal of the frequency. Therefore, the period of a wave with a frequency of 1500 Hz is 1/1500 seconds, which is approximately 0.00067 seconds.
1 hertz.
The frequency of the wave passing through the rope would be 1 hertz, as one wave passes every second. Frequency is measured in hertz, which represents the number of waves passing a certain point per second.
The number of cycles of a wave that passes a stationary point in one second is called its frequency. It is typically measured in hertz (Hz), where one hertz represents one cycle per second.
The time required for one complete wave cycle is known as the period. It is typically measured in seconds and is the inverse of the frequency of the wave. For example, if a wave has a frequency of 10 Hz, the period would be 0.1 seconds.
The period of the wave is 4 seconds, as it takes 4 seconds to complete one full cycle (rise and fall). The frequency of the wave is 0.25 Hz, as it completes two cycles (rises and falls) in 4 seconds. Frequency is the reciprocal of period, so 1/4 = 0.25 Hz.
One second 0.004
The unit of measurement for electromagnetic wave frequency is hertz (Hz), which represents one cycle per second.
The frequency of a wave with a period of 18 seconds would be 1/18 Hz, which is approximately 0.056 Hz. This means the wave completes one cycle every 18 seconds.
If it takes 5 seconds for one whole wave to pass you, then its frequency is 1/5 wave per second, or 0.2 Hz.