(a) Charge Will increase
(b) Potential difference will stay the same
(c) Capacitance will increase
(d) Stored energy will decrease
The electric field is weakened when a dielectric is inserted.
Nothing will happen, you can go over 6.3v but never under......
Only frequencies in the pass band range will be allowed through the circuit. Other frequencies will be attenuated based on the RC values picked.
Oversizing the capacitor can shorten motor life.
series resonant circuit
The electric field is weakened when a dielectric is inserted.
it decreases...............
That will depend on the dielectric. There will be two main effects - any change in the permeativity of the dielectric, and thermal expansion which will increase the distance between the plates. There will also be an change (probably an increase), in leakage current through the dielectric. Any change is very likely to be small or insignificant - I have worked in a factory making capacitors and temperatures were very variable, not controlled, for measurements of capacitance.
Nothing will happen, you can go over 6.3v but never under......
If the capacitor is charged then the battery will explode.
It flows out of the capacitor into the external circuit
It will increase the ripple factor that the capacitor is in the circuit to smooth out.
a capacitor must be supplied with only a.c supply because if it is supplied with d.c.supply the distance between the capacitors increases and it acts as a open circuit.
Only frequencies in the pass band range will be allowed through the circuit. Other frequencies will be attenuated based on the RC values picked.
Oversizing the capacitor can shorten motor life.
series resonant circuit
large capacitors will become charged in a fraction of a second if a DC voltage is applied to its terminalsonce a capacitor becomes fully charge it acts as an open circuit to direct current in other words, once the capacitor charged by a DC voltage, the current will cease to flow in the branch of the circuit which contains the capacitor.a capacitor also offers opposition known as (capacitive reactance) to alternating current. it does not , however ,act as an open circuit to when an a-c alternating current voltage is applied.