Frequency = reciprocal of period = 1/P = 1/0.008 = 125 Hz.
frequency
0.1 seconds
256
The wavelength will increase if the period increases.Proof:First define the terms: Wavelength = Lamda (λ), Velocity of propagation = v, frequency = f, period of oscillation = T. Frequency asks "how many waves per unit time (seconds usually)".Period asks "How much time (seconds) does it take for one wave cycle to complete".Also, frequency is inversely proportional to period, so f = 1/T. Also, T = 1/f.(Incidentally, note that as period (T) increases, then frequency (f) gets decreases. Or if frequency increases, then period decreases.)λ = v/forλ = vT. (by replacing f with 1/T)If the frequency decreases, OR/AND the velocity increases, then wavelength corespondingly increases.If the period increases OR/AND the velocity increases, then the wavelength increases.
The wave's frequency is.
Frequency = speed/wavelengthPeriod = 1/frequency = wavelength/speed = (3,000,000)/(300,000,000) = 0.01 second
Hertz is not a unit of time, rather the reciprocal (1/second). A frequency of 12.5 Hz. is the same as a period of 1/12.5 seconds.Hertz is not a unit of time, rather the reciprocal (1/second). A frequency of 12.5 Hz. is the same as a period of 1/12.5 seconds.Hertz is not a unit of time, rather the reciprocal (1/second). A frequency of 12.5 Hz. is the same as a period of 1/12.5 seconds.Hertz is not a unit of time, rather the reciprocal (1/second). A frequency of 12.5 Hz. is the same as a period of 1/12.5 seconds.
You count how many times it happens in each equal period of time. Once you havethat number, you can say that the frequency of the event is that many per hour,or that many per year, or that many per minute.If it's that many per second, then the frequency is that many 'Hertz'.
.0008
.0008 gaze
Frequency is the number of cycles per second. That is the number of times the variable you are measuring reaches its maximum, decreases to a minimum, then reaches a new maximum. Over a 1 second period.
Frequency, in Hertz is the inverse of Period. Given that our sun poofs and puffs once every 11 years, we can state that frequency is the inverse of that Period. You are welcome to figure out how many seconds there are in this period -- and from there arrive at the frequency you seek.
How many oscillations per second
How many oscillations per second
The number of waves that pass a certain point per second is called the FREQUENCY. The unit is the hertz (cycles per second).
A second is a length of time, while a hertz is a unit of frequency, so you can have as many hertz in a second as you want. therefore it depends on what frequency you are talking about, as you can have hundreds of thousands of hertz per second.
"Frequency" means how 'frequent' the wave is. How many wave 'bumps' pass you every second.