If the emf of a thermocouple, one junction of which is kep `0^(@)C` is given by `e=at+1//2bt^(2)` then the neutral temperature will be

The e.m.f of a thermocouple one junction of which is kept at 0^@C , is given by e=at+bt^2 The neutral temperatue will be

If E=at+bt^(2) , what is the neutral temperature

The emf of a thermocouple, cold junction of which is kept at - 300^@C is given by E= 40 t + 1/10 t^2 . The temperature of inversion of thermocouple will be ......

The thermo emf of a thermocouple , one junction of which is kept at 0^(@)C , is given by varepsilon=at+bt^(2) where a and b constants of the thermocouple . Calculate the neutral temperature and peltier and Thomson coefficients.

The thermo emf of a therocouple , one junction of which is kept at 0^(@)C , is given by varepsilon=at+bt^(2) where a and b constants of the thermocouple . Calculate the neutral temperature and peltier and Thomson coefficients.

The thermo emf of a therocouple , one junction of which is kept at 0^(@)C , is given by varepsilon=at+bt^(2) where a and b constants of the thermocouple . Calculate the neutral temperature and peltier and Thomson coefficients.

The emf in a thermooelectric circuit with one junction at 0^(@)C and other at t^(@)C is given by E=At-Bt^(2) , the neutral temperature is , then

The emf in a lead-iron thermocouple , one junction of which is at t^(@)C is given by varepsilon=178t-2.4t^(2)( "in "muV) where t is the temperature in .^(@)C .Find the neutral temperature , Peltier coefficient and Thomson coefficient.