Because of transfer functions and the response of the scope
when the frequency is low , energy will be obviously low. To increase the energy of the signal we need to increase the frequency. This is achieved by multiplying the message signal with the carrier signal (with high frequency).
The frequency would decrease the gain and increase the output voltage
The time base of an oscilloscope is used to increase or decrease the time per division value on the Y-axis ranging from few tens of seconds to micro seconds to nanoseconds used for microwave signals.If you increase the time base of an oscilloscope lesser and lesser part of the signal will be present in one division of the Y-axis. Setting the time base to a proper value will enable you to see high frequency signals clearly otherwise each cycle of the signal would be indistinguishable from the other huehue
AS FREQUENCY INCREASE THE BANDWIDTH INCREASE. AS WE KNOW NOISE HAVE LARGER BANDWIDTH. SO ITS AFFECT HIGH FREQUENCY SIGNAL. BUT LOW FREQUENCY SIGNAL HAVE LOW BANDWIDTH SO IT IS LESS AFFECTED BY NOISE. ALSO WE KNOW QUALITY FACTOR= CUTOFF FREQUENCY / BANDWIDTH. SO AS FREQUENCY INCREASE B.W. INCREASE SO QUALITY DEGRADE. CUTOFF FREQUNCY AND THE TERM FREQUENCY (USED HERE) IS DIFFERENT. CUTTOFF FREQUNCY IS USED IN FILTER. PRABIR KUMAR SETHY prabirsethy.05@gmail.com
You either Decrease mass or increase spring force.
A: A sampling scope is not real time scope but rather a hi frequency rate of sampling which benefit the observer
The wavelength is inverse to the frequency, meaning the frequency in this case will increase.
Increase the energy in general.
when you increase the frequency, then the wavelength decreases. :)
frequency x wavelength = speedSo, if you increase frequency, the wavelength decreases, and vice versa.
Increase decrease. The frequency MUST decrease.
when the frequency is low , energy will be obviously low. To increase the energy of the signal we need to increase the frequency. This is achieved by multiplying the message signal with the carrier signal (with high frequency).
Wavelength is inversely proportional to Frequency. Wavelengths increase as Frequency decreases.
No, the frequency decreases as the wavelength lengthens. The shorter the wavelength the higher the frequency.
Provided the speed of the wave remains constant, as we increase the frequency of wave then wavelength decreases. Because frequency and wavelength are inversely related.
Increase in frequency only.
No. Greater frequency = less period.