In Millikan's experiment, the plates are kept at a distance of 16mm and are maintained at a potential difference of 10,000 V. The electric intensity is

What is the relation between potential difference and electric field intensity?

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

In a circuit, 10 C of charge is passed through a battery in a given time. The plates of the battery are maintained at a potential difference of 12 V. How much work is done by the battery?.

Two plates are 2 cm apart. If a potential difference of 10 V is applied between them. The electric field between the plates will be

In Millikan's experiment an oil drop of mass 4.9xx10^(-14) kg is balanced by applying potential difference of 2kV between the two plates which are 2 mm apart. The charge of the drop is _______.

In a Millikan-type oil-drop experiment, the plates are 8 mm apart. An oil drop is found to remain at rest when the upper plate is at a potential 136 V higher than that of the lower one. When the electric field is switched off, the drop is found to fall a distance of 2.0 mm in 36 seconds with a uniform speed. Find (a) the charge on the drop and (b) the number of electrons attached to this drop. Density of oil = 880 kg m^(-3) and coefficient of viscosity of air = 180 mupoise .

A point charge of 2 C experiences a constant force of 1000 N when moved between two points separated by a distance of 2 cm in a uniform electric field. The potential difference between the two points is

An electron is emitted with negligible speed from the nagative plate of a parallel plate capacitor charged ot a potential difference V. The separtion between the plates is d and a magnetic field B exists in the space as shown in . Show that the electron will fail to strike the upper plate if ltdgt ((2m_e V)/(eB_0^2))^(1/2) .

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)?