A potential difference of 5V is applied across a conductor of length 10 cm. IF drift of electron is `2.5 xx 10^(-4) m//s`, then electron mobility in SI unit is

A potential difference of 5 V is applied across a conductor of length 10 cm . If drift velcoity of electrons is 2.5 xx 10^(-4) m//s , then electron mobility will be

When 5 V potential difference is applied across a wire of length 0.1 m, the drift speed of electrons is 2.5 xx 10^(-4) ms ^(-1) . If the electron density in the wire is 8 xx 10^(28) m^(-3) , the resistivity of the material is close to :

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 30V is applied between the ends of a conductor of length 100 m and resistance 0.5Omega . The conductor has a uniform cross-section. Find the total linear momentum of free electrons.

A copper wire has a resistance of 10 Omega and an area of cross-section 1 mm^(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.

When a potential difference of 2 volt is applied across the ends of a wire of 5 m length, a current of 1 A flows through it. Calculate : the resistance per unit length of the wire,

Consider a conductor of length 40 cm where a potential difference of 10V is maintained between the ends of the conductor. Find the mobility of the electrons provided the drift velocity of the electrons is 5xx10^(-6) ms^(-1)

A potential difference of 2.5 V is applied across the faces of a germanium crystal plate. The face area of the crystal is 1 cm^(2) and its thickness is 1.0 mm . The free electron concentration in germanium is 2 xx 10^(19)m^(-3) and the electron and holes mobilities are 0.33m^(2)/V s and 0.17 m^(2)/V s respectively. The current across the plate will be

Consider the following quantities: number density of free electrons, n, mean free time of electrons between collisions,t , drift velocity of electrons, v_d , resistivity, p. A constant potential difference is applied across a conductor. Assuming that the temperature of the conductor remains constant, which of these quantities is/are independent of the magnitude of the potential difference applied?

A constant potential difference is applied across a metal wire. Let the average thermal velocity of electrons in the wire be v_t and let the drift velocity be v_d . As the temperature of the wire rises: