Frequency is a measure of the number of occurrences of a repeating event per unit time. The bandwidth of a frequncy is simply the difference between the upper and lower frequencies.
for high data rate ( data transfer speed ) the bandwidth of the signal carrying system should be high. because a high data rate means a high frequency ( square ) wave actually such a wave consists of a large number of waves having a range of frequencies Fourier analysis) so to get a distortion less transmission the bandwidth should be high
In waves v = f*lambda
v = wave velocity
f = frequency
lambda = bandwidth
The relationship between a signal's spectrum and its bandwidth is that the signal of the bandwidth is the width of spectrum. The selection of signal waves acts as the wavelength.
They are inversely proportional. For any one signal,
their product is the speed of light.
Time of period=1/frequency
larger bandwidth beter directivity lower power requirement less fading effect
For any wave, frequency x wavelength = speed of the wave.
Time period and frequency are mutual reciprocals. T = 1/f F = 1/t
In the case of electromagnetic wave, the energy of a photon is directly proportional to the frequency. For other types of waves, the situation may be different.
Bandwidth is the output of some light source, the width of the frequency range which can be transmitted by some element, the gain bandwidth of an optical amplifierthe width of the range of some other phenomenon. It's values may be specified in terms of frequency or wavelength.
The relation between cut off frequency (fc) and band width is as follows: fc=Q*B.W where Q=(fL*fH)^1/2/(fH-fL) Q is quality factor. fL is low frequency. fH is high frequency.
Transmission bandwidth depends on modulating signal frequency and carrier frequency
There is a relation between transmission media and bandwidth. The transmission media cannot exceed the amount of bandwidth available. The transmission of media is limited to the bandwidth.
Bandwidth is the amount of information that can come through. The frequency is how quickly the information can come through.
Signal Bandwidth is the Bandwidth of particular frequency at which signal is transmitted and Bandwidth of spectrum which can able two show number of signal between Intrest of frequency.
Bandwidth does not change with frequency. Bandwidth defines (part of) how the response of a circuit changes with frequency. Other things that define how the response of a circuit changes with frequency are: phase shift, roll-off rate, linearity of the passband, etc. but bandwidth ignores these.
I think it might be 20KHz. Q= frequency over bandwidth
Every line has an upper limit and a lower limit on the frequency of signals it can carry. This limited range is called the bandwidth. The signals ranging within the upper limit & lower limit are called bandwidth signals.
Use the relation: speed = frequency x wavelengthUse the relation: speed = frequency x wavelengthUse the relation: speed = frequency x wavelengthUse the relation: speed = frequency x wavelength
frequency response curve helps us to find the bandwidth of particular amplifier circuit. Bandwidth is the range of frequency at which the amplifier works better....
no,because generally the lower frequency side existed for lower bandwidth,and higher frequency side existed higher bandwidth,so thus we can say that lower bandwidth has generally has lower power as compared to higher bandwidth.