The cold junction of a thermocouple is at `0^(@)C`. The thermo e.m.f. `epsilon`, in volts, generated in this thermocouple varies with temperature `t^(@)C` of the hot junction as `epsilon=6+4t-(t^(2))/(32)`. The neutral temperature of the thermocouple

Above neutral temperature, thermo e.m.f. in a thermocouple

The thermo e.m.f. E in volts of a certain thermocouple is found to vary with temperature difference q in .^(@)C between the two junctions according to the relation E=30 theta-(theta^(2))/(15) The neutral temperature for the thermo-couple will be:-

The thermo emf E of a thermocouple is found to vary wit temperature T of the junction (cold junction is 0^(@)C ) as E=40T-(T^(2))/(20) The temperature of inversion for the thermocouple is

When the cold junction of a thermocouple is maintained at 0^(@)C , the thermo em .e., generated by this thermocouple is given by the relation e=[16*8+(1)/(2)(-0*0480) theta^(2)]xx10^(-6) where theta is the temperature of the hot junction in ""^(@)C . Find the neutral temperature of this thermocouple.

The emf varepsilon of a Cu-Fe thermocouple varies with the temperature theta of the hot junction (cold junction at 0^(@)C ), as varepsilon(mu V)=14 theta-0.02 theta^(2) Determine the neutral temperature.

If the temperature of cold junction of thermocouple is lowered, then the neutral temperature

The rate of increase of thermo-emf with temperature at the neutral temperature of a thermocouple

If the cold junction of thermocouple is kept at 0^(@)C and the hot junction is kept at T^(@)C , then the relation between neutral temperature (T_(n)) and temperature of inversion (T_(i)) is

A thermocouple produces a thermo emf of 40muV//.^(@)C . A thermopile is made by using 150 such thermocouples. The temperature of the two junctions is 20^(@)C and 40^(@)C How much thermo emf generates in the thermopile

The thermo emf E (in volts) of a certain thermocouple is found to vary with Q (in C) acoording to eqution (E=20Q-Q^2/(20)) , where Q is tempereature of the hot function, the cold function being kept at 0^@C . Then the neutral temperature of the thermocouple is