The potential difference between the plates in Millikan's oil drop experiment is ________ volts.

Millikan's oil drop experiment established that

Consider the situation of the previous problem. Define displacement resistance (R_d = V/i_d) of the space between the plates where V is the potential difference between the plates and i_d is the displacement current. Show that R_d varies with time as (R_d)= (R(e^(t/tau)-1).)

Two parallel plate capacitors X and Y have the same area of plates and same separation between them. X has air between the plates while Y contains a dielectric medium of ε r ​ = 4. (i) Calculate capacitance of each capacitor if equivalent capacitance of the combination is 4 μF. (ii) Calculate the potential difference between the plates of X and Y. (iii) Estimate the ratio of electrostatic energy stored in X and Y.

The plates of a parallel-plate capacior are given equal positive charges .What will be the potential difference between the plates ? What will be the charges on the facing surfaces and on the outer surfaces ?

Two plates are 1 cm aprt and the potential difference between them is 10 V. the electric field between the plates is

Red Drop experiment was done using ________

A parallel plate capacitor is charged by a battery after some time, the battery is disconnected and a dielectric slab with its thicnkess equal to the plate so reparation is insected between the plates. How will (i) the capacitance of the capacitor (ii) potential difference between the plates & (iii) the energy sotred in the capacitor the affected ? Q_(0) -charge V_(0) - potential difference, C_(0) - capacitance, E_(0) electric field. U_(0) - energy spred, before the dielectric slab is inserted. Q_(0)=C_(0) V_(0), (V_(0))/(d), U_(0)=(1)/(2)C_(0)V_(0)^(2)?