It is 0.5 seconds.
Twice each second = 2Hz
Period, T , and frequency, f , are always the inverse of each other; f = 1/T
Each frequency will differ with each mobile device. Frequency is known as the number of times at which an electromagnetic wave oscillates per second.
In Meld's experiment, the number of loops in transverse mode is twice that of longitudinal mode because the wave in the transverse mode oscillates in two dimensions (up and down, side to side), creating two loops for each full wavelength. In contrast, the wave in the longitudinal mode only oscillates in one dimension (back and forth), resulting in only one loop for each full wavelength.
Your granddaughter and your second cousin are second cousins, twice removed, to each other.
You have a period roughly every 28 days however it varies depending on each woman.
2Hz
The wave speed is equal to the frequency multiplied by the wavelength. In this case, since the wave vibrates up and down twice per second (frequency = 2 Hz) and travels a distance of M each second, its wave speed would be 2M/s.
The period of vibration is the time it takes to complete one full cycle of vibration. In this case, since the wave vibrates 3 times each second, the period of vibration would be 1/3 seconds per cycle.
Say what! the question no makey sense to moi
Yes,because it is easier for the visiting team to make a line change when they switch ends after each period.
Period of a pendulum (T) in Seconds is: T = 2 * PI * (L/g)1/2 L = Length of Pendulum in Meters g = Acceleration due to gravity = 9.81 m/s2 PI = 3.14 The period is independent of the mass or travel (angle) of the pendulum. The frequency (f) of a pendulum in Hertz is the inverse of the Period. f = 1/T