The temperatures of the junctions of a biamuth-silver thermocouple are maintained at `0^@ C` and `0.001^@ C`. Find the thermo-emf (Seebeck emf) developed. For bismuth-silver, `a = - 46 xx 10^(-6) V^@ C^(-1) and b= -0.48 xx 10^(-6) V^@ V^@ C^(-2)`.

The junctions of a Ni-Cu thermocouple are maintained at 0^@ C and 100^@ C . Calculate the Seebeck emf produced in the loop. a_(Ni, Cu) = 16.3 xx 10^(-6) V^@ C^(-1) and b_(Ni, Cu) = - 0.042 xx 10^(-6) V^@ C^(-3)

The junction of a Ni-Cu thermocouple is maintained to 0^(@)C and 100^(@)C . Find the thermo-emf produced. Also, find nautral temperature and inversion temperature. Given a_(Ni, Cu) = 16.3xx10^(-6)V//.^(@)C, b_(Ni,Cu) = -0.042xx10^(-6)V//(@C)^(2) .

Find the thermo-emf developed in a copper-silver thermocopule when the junctions are kept at 0^@ C and 40^@ C . Use the data in table.

The cold junction of a thermocouple is maintained at 10^(@)C . No thermo e.m.f . is developed when the hot junction is maintained at 530^(@)C . The neutral temperature is

The cold junction of a thermocouple is maintained at 15^(@)C . No thermo-emf is developed when the hot junction is mainted at 525^(@)C . Find neutral temperature.

The temperature of the cold junction of the thermocouple is ^(@)C and the temperature of the hot junction is T^(@)C . The relation for the thermo emf is given by, E = AT = (1)/(2) BT^(2) ltbRgt (when A = 16 and B = 0.08) . The temperature of inversion will be

In a thermocouple the temperature of cold junction is 20^(@)C , while the temperature of inversion is 520^(@) C. At what temperature is the thermo emf maximum?

The temperature of the cold junction of thermo-couple is 0^(@)C and the temperature of hot junction is T^(@)C . The e.m.f . is E=16T-0.04 T^(2)mu volts. The temperature of inversion is

An electric current of 0.4 A is passed through a silver voltameter for half an hour . Find the amount of silver deposited on the cathode. ECE of silver = 1.2 xx 10^(-3) g C^(-1) .

A silver and a copper voltameter are connected in series with a 12.0 V battery of negligible resistance. It is found that 0.806g of silver is deposited in half an hour.Find (a) the mass of the copper deposited and (b) the energy supplied by the battery. ECE of silver = 1.12 xx 10^(-6) kg C^(-1) and that of copper = 6.6 xx 10^(-7) kg C^(-1)