A potential barrier of 0.6 V exists across a P - N junction . If the depletion region is `1mu m` wide, what is the intensity of electric field in the region?

A potential barrier of 0.50V exists across a p-n junction.(a) If the depletion region is 5.0xx10^(-7) m wide,what is the intensity of the electric field in this region?(b) An electron with speed 5.0xx10^(5)m s^(-1) approaches the p-n junction form the n-side.With what speed will it enter the p-side?

In a p-n junction,a potential barrier of 250 mev exsists across the junction.A hole with a kimetic energy of 300 meV approaches the junction. Find the kinetic energy of the hole when it crosses the junction if the hole approached the junction (a)from the p-side and (b)from the n-side.

What is depletion region in p-n junction ?

In the depletion region of an unbiased p-n junction diode, there are

The potential barrier exists across the junction is 0.2volt.What minimm kinetic energy a hole should have to diffuse from the p-side to the n-side if (a)the junction is unbiased,(b)the junction is forward-biased at 0.1volt and ©the junction is reverse-biased at 0.1volt?

A copper wire has a resistance of 10Omega and an area of cross-section 1 m m^(2) . A potential difference of 10 V exists across the wire. Calculate the drift speed of electrons if the number of electrons per cubic metre in copper is 8xx10^(28) electrons.

A water particle of mass 10.0 mg and having a charge of 1.50 xx 10^(-6)C stays suspended in a room. What is the magnitude of electric field in the room ? What is its direction?

The depletion layer in the p-n junction region is caused by

A spherical conductor of radius 0.12 m has a charge of 1.6 xx 10^-7C distributed uniformaly on its surface. What is the electric field (i) Inade the sphere (ii) on the sphere (iii) at a point 0.18 m from the centre of the sphere?

An electric dipole formed by two particles fixed at the ends of a light rod of length l. The mass of each particle is m and the charges are -q and +q . The system is placed in such a way that the dipole axis is parallel to a uniform electric field E that exist in the region. The dipole is slightly rotated abut its centre and released. Show that for small angular displacement, the motion is angular simple harmonic and find its time period.