We know the formula of speed of a wave is given by V = FW... where V is the speed , F is the frequency and W is the wavelength so very clearly the speed of this wave is 4*3 =12 m/s.
The speed of the wave will be 32 metres /sec .
The speed of the wave c = frequency f times wavelength lambda. c = 25 times 5 = 125 m/s, whatever that medium on what planet may be. Some formulas: Scroll down to related links and look at "Wavelength".
A period can't be 4 Hz; those are the wrong units. If the period is 1/(4Hz), then the frequency is 4Hz. If the period is 4 seconds, then the frequency is 0.25 Hz. They are inversely related.
2
speed of a wave = wavelength x frequency = 2.5m x 4Hz = 10m/s
The speed of the wave will be 32 metres /sec .
4Hz because this wave happens 4 times per second. Hz=1second / frequency.
The speed of the wave c = frequency f times wavelength lambda. c = 25 times 5 = 125 m/s, whatever that medium on what planet may be. Some formulas: Scroll down to related links and look at "Wavelength".
the frequency = 1/T where T is the time period of the wave so in this case T = 1/4 so f = 4 therefore the wave has a frequency of 4Hz
A period can't be 4 Hz; those are the wrong units. If the period is 1/(4Hz), then the frequency is 4Hz. If the period is 4 seconds, then the frequency is 0.25 Hz. They are inversely related.
2
It is an instrument that measures voltage against time. This is known as frequency. If the trace takes one second to transverse the tube face (adjusted by the "x" control) and the input to the "Y" amplifier varies from say +2volts to -2volts and it did this + & - variation at 4Hz then a square wave will be shown on the tube face, which will be repeated four times. If the frequency is doubled then eight repeats will be shown. As the osilloscope has variable "x" frequency and the "y" amplifier gain can also be varied then any waveform can be measured. All 'scopes work in basically the same way but some are more complicated to use than others. I do hope this is of help but do ask me if you need any further assistance and I will try to help.
It is an instrument that measures voltage against time. This is known as frequency. If the trace takes one second to transverse the tube face (adjusted by the "x" control) and the input to the "Y" amplifier varies from say +2volts to -2volts and it did this + & - variation at 4Hz then a square wave will be shown on the tube face, which will be repeated four times. If the frequency is doubled then eight repeats will be shown. As the osilloscope has variable "x" frequency and the "y" amplifier gain can also be varied then any waveform can be measured. All 'scopes work in basically the same way but some are more complicated to use than others. I do hope this is of help but do ask me if you need any further assistance and I will try to help.
It's 1920Bytes. As the bandwidth (f2-f1) is 20-16=4Hz. The sampling frequency should be twice the bandwidth (2B). the sampling frequency is 8Hz= 8 samples= 8 cycles/second. 4 minutes=(4*60) =240 Seconds 1sample->1 Byte 1Second->8 Samples 240 Seconds->(240*8) = 1920 Samples
Technical specifications for the Pioneer CDJ 200 system are 4Hz-20kHz frequency response, 110dB (JEITA) signal-to-noise ratio, 0.006% (JEITA) distortion, 16W power consumption, 8.5 x 11.5 x 3.9 dimensions,and a weight of 9.3 lbs. Sounds like a great system!
Llandrillo College, or Coleg Llandrillo, is the largest college located in North Wales and one of the largest in the United Kingdom. The college campus is located at the address Llandudno Rd, Rhos on Sea, Colwyn Bay LL28 4HZ in the United Kingdom.