frequency- Hertz (Hz)
the answer is Frequency. for a+ users
The number of waves that pass a point in 1 second
It is the frequency.
The number of waves that pass a fixed point in a fixed amount of time is known as the "frequency".=====is called the Frequency of the waves (located on page 10 of the Penn Foster - Sound Study Guide)=====The number of waves that pass a given point per second is measured in units of Hertz (Hz). Hertz is a unit for cycles per second.The number of cycles that a wave completes in 'S' seconds is 'S' times its 'frequency'.
No, the frequency of light is the number of times a complete 'wavelength' of light (ignoring the photon-like nature of light) passes a fixed point in a second. Generally measured in Hertz (Hz).
the answer is Frequency. for a+ users
Resistance is measured in ohms.
They aren't the same. Imagine a water wave - the pitch (that is, the frequency) is the number of wave crests passing a fixed point per second. The amplitude is the height of the wave For a sound wave, the pitch is again related to the number of wave crests per second that pass a fixed point. The amplitude in this case is a measure of pressure difference between wave maxima and minima.
The number of waves that pass a point in 1 second
It is the frequency.
No, the frequency of light is the number of times a complete 'wavelength' of light (ignoring the photon-like nature of light) passes a fixed point in a second. Generally measured in Hertz (Hz).
No, the frequency of light is the number of times a complete 'wavelength' of light (ignoring the photon-like nature of light) passes a fixed point in a second. Generally measured in Hertz (Hz).
The number of waves that pass a fixed point in a fixed amount of time is known as the "frequency".=====is called the Frequency of the waves (located on page 10 of the Penn Foster - Sound Study Guide)=====The number of waves that pass a given point per second is measured in units of Hertz (Hz). Hertz is a unit for cycles per second.The number of cycles that a wave completes in 'S' seconds is 'S' times its 'frequency'.
The Origin.
The capillary tube is fixed in the Ostwalds viscometer is for passing the liquid.
The frequency of a wave motion is the number of waves passing through a fixed position each second. Thus, the sound wave emitted from the tuning fork has a frequency of 384 Hz means that the fork is vibrating 384 times per second.
The fixed number is 22/7