The expression for thermo emf in a thermocouple given by the relation `E=40theta-(theta^(2))/(20)`, where `theta` is the temperatue difference of two junctons. For this, the neutral temperature will be

The thermo emf of a thermocouple is given by E=alpha(theta-theta_(g))+beta(theta^(2)-theta_(0)^(2)) Determine the neutral temperature and inversion temperature.

A thermocouple with one junction at ice-point , has emf given by the relation, varepsilon =atheta+(1)/(2)btheta^(@) , where theta^(@)C is the temperature of the hot junction. If the emf has the value 4.05 mV and 9.85 mV at theta=100^(@) C and 300^(@)C respectively . What is the emf at theta=500^(@)C ?

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

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

For a certain thermocouple , varepsilon=alphatheta+(1)/(2)betatheta^(@),where theta.^(@)C is the temperature of the hot junction and 0^(@)C is the temperature of the cold junction . If alpha =10 mu V.^(@)C^(-1) and beta=-(1)/(20)muV.^(@)C^(-2) , find the neutral temperature and temperature of inversion.

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 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

For a given temperature difference, which of the following pairs will generate maximum thermo e.m.f.

Express each of that as the sum or difference of cosines and sines: 2sin3 theta.cos theta

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