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Since they're connected in parallel directly across the source, the voltages across both componentsare equal, and are equal to the source, i.e. 120 v DC.
A voltmeter can be connected in parallel with a resistor to show the voltage across the resistor.
The same as the time constant of a 2.7 microfarad capacitor and a 33 ohm resistor connected in series.
Bypass capacitors are used to bypass (shunt) unwanted signals to the ground. A common use is in power supplies where a bypass capacitor is connected in parallel with the main filter capacitor to shunt noise and other high frequency interference to ground which the main capacitor may not be able to do.
The most common method of improving the power factor of a load is to connected a capacitor or capacitor bank, of appropriate reactive power (expressed in reactive volt amperes), in parallel with the load.
Since they're connected in parallel directly across the source, the voltages across both componentsare equal, and are equal to the source, i.e. 120 v DC.
A voltmeter can be connected in parallel with a resistor to show the voltage across the resistor.
When it is connected to resistor
The same as the time constant of a 2.7 microfarad capacitor and a 33 ohm resistor connected in series.
Bypass capacitors are used to bypass (shunt) unwanted signals to the ground. A common use is in power supplies where a bypass capacitor is connected in parallel with the main filter capacitor to shunt noise and other high frequency interference to ground which the main capacitor may not be able to do.
A transistor acts like a resistor when Gate is connected to Source.
The most common method of improving the power factor of a load is to connected a capacitor or capacitor bank, of appropriate reactive power (expressed in reactive volt amperes), in parallel with the load.
That would be done by a resistor connected between the two plates.
Group of resister is called as gang resister
I'd have to see a diagram, as your description in words is unclear.
In parallel.
Rt = 10