A potential difference of 3V is applied across a conductor of resistance `1.5 Omega`.
Calculate the number of electrons flowing through it in one second. Given charge on electron, `e=1.6 xx10^(-19)C`.

A potential difference of 3 V is applied across a conductor of resistance 1.5 Omega . Calculate the number of electrons flowing through the conductor in 1 s. Given, charge on electorn , e = 1. xx 10^-19 C

A potential difference of 200 volt is maintained across a conductor of resistance 100ohm. Calculate the number of electrons flowing through it in one second. Charge on electron e = 1.6 xx10^-19C

A potential difference of 10 V is applied across a conductor of resistance 1 k Omega . Find the number of electrons flowing through the conductor in 5 minutes.

A potential difference of 10 V is applied across a conductor of resistance 1 k Omega . Find the number of electrons flowing through the conductor in 5 minutes.

A potential difference of 10 V is applied across a conducotr of resistance 1kOmega . Find the number of electrons flowing through the conductor in 5 minutes.

A potential difference of 25 V is applied across a conductor of resistance 100 Omega . Find the current through the conductor.

Calculate the number of electrons constituting one coulomb of c.harge. (charge on 1 electron = 1.6xx10^(-19) C)