The capacitive reactance of a capacitor increases as the frequency decreases.
A: Any additional capacitor added in parallel will effectively increase to total capacitance by that value. Note that additional capacitor added must have the same voltage rating as the other
The main role of dielectrics in capacitors is to increase the value of capacitance of the capacitor.
transistor either increase or decrease current bt capacitor stores the energy
It will draw 150 watts. The capacitor is there only to increase the voltage enough to "excite" the free electrons in the gas to ignite.
you cannot increase the voltage by replacing a capacitor. A capacitor is a passive components it has no gain.
You increase the length of leads of a capacitor by splicing extra length onto them.
The capacitive reactance of a capacitor increases as the frequency decreases.
A: Any additional capacitor added in parallel will effectively increase to total capacitance by that value. Note that additional capacitor added must have the same voltage rating as the other
It will increase the ripple factor that the capacitor is in the circuit to smooth out.
The main role of dielectrics in capacitors is to increase the value of capacitance of the capacitor.
Not much if it is a fixed capaitor. If it is a variable capacitor, rotating the shaft to mesh the two sets of plates more closely will increase the capacitance.
transistor either increase or decrease current bt capacitor stores the energy
yes a capacitor can improve voltage by improving power factor
You cannot increase voltage by adding amps.
In an electronic circuit a capacitor can be used to block direct current. In general a capacitor stores electric charge. The charge in a capacitor is the voltage times the capacitance and that is also equal to the charging current times the time (all quantities in SI units - seconds, volts, amps, coulombs, farads)
Capacitor banks can improve the power factor if the load is leading, which is unusual. Typically in substations capacitor banks are employed to reduce over voltage.