If the temperatures on both ends of a conductors are different then the emf between them is called

Find the emf induced across the ends of the conductor shown in the figure

The ratio of the diameters of two metallic rods of the same material is 2 : 1 and their lengths are in the ratio 1 : 4 . If the temperature difference between their ends are equal, the rate of flow of heat in them will be in the ratio

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?

the following table gives the lengths of four copper rods at the temperature ,their diameters and the potential differences between their ends.

Heat is flowing through two cylindrical rods of the same material . The diameters of the rods are in the ratio 1:2 and the lengths in the ratio 2:1.If the temperature difference between the ends be the same ,then the ratio of the rate of flow if heat through them will be ?

Derive the expression for the current density of a conductor in terms of the conductivity and applied electic field. Explain with reason how the mobility of electrons in a conductor changes when the potential difference applied is doubled, keeping the temperature of the conductor constant.

If V is the potential difference between the ends of conductor and l is the current through it, then ohm's law states that

If the potential difference across the ends of a conductor is doubled, the energy loss becomes-

If the potential difference across the ends of a conductor is doubled, the current flowing through it gets

The number of electrons in an insulator is of the same order as the number of electrons in a conductor. What is then the basic difference between a conductor and an insulator ?