if filtered and loaded the average DC voltage will increase and the ripple AC voltage will decrease, but the peak voltage is unchanged. this is because the filter capacitor has less time to discharge into the load.
if unfiltered or unloaded the voltage cannot change. unfiltered the waveform just follows the half cycle of the input. if filtered but unloaded the output is DC at the peak voltage of the input AC.
No effect on frequency but increases it's amplitude.
Higher the frequency, higher the losses.
Inductance is inductance, and is not a function of frequency. Frequency affects reactance, and ultimately impedance, not inductance.
The waveform from a half wave rectifier looks just as it is described by its name: half of a full sine wave. That will cause a pulsed or "ripple" effect in the output voltage and current that come out from the rectifier. Whether that will cause a problem depends on the application you are using. For instance, if it is a light bulb, it will appear to flicker at the frequency of the alternating current service that has been rectified, which can be very annoying! If it is a device such as a charger for the battery of a digital camera or an electric shaver, the pulsed output current doesn't matter at all.
There is no effect on frequency but the amplitude is increased
The relationship of the input frequency and output frequency in a half-wave rectifier is one-to-one.(For full-wave, its one-to-two.)The shape won't be the same, as the rectifier will only pass alternate half-cycles, but the apparent frequency will be the same.
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Different frequencies of light are different colors.
There's no connection between amplitude and frequency. Either one can change, and often does, with absolutely no effect on the other.
The effect of an RL circuit in half wave rectifier is that the voltage output wave forms for current and voltage will be modified .
An open diode will result in no output from a half wave rectifier, and an open diode will cut the output of a full wave rectifier in half.
Its no longer a rectifier and the resistors may catch fire.
it makes current wave more smooth
effect of high frequency sounds
No effect on frequency but increases it's amplitude.
Frequency agility is the changing radar frequency rapidly and continuously to minimize jamming effect or enhance the target resolution and hit per scan. where as frequency diversity is a method to couple two radar transmitters to a single antenna simultenously to increase the range of radar in terms of coverage.
rectifier is used to resist the current likewise in bridge wave rectifier ,the inductive load is used to resist high amount of current because in bridge wave we cannot resist the current by using rectifier ..so we are using inductive load here