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

What is the relation between Fahrenheit temperature (t_(f)) and Celsius temperature (t_(c)) 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.

With the cold junction at 0^(@)C the neutral temperature for a thermo-couple is obtained at 270^(@)C . The cold junction temperature is now lowered to -10^(@)C Obta in the (a) neutral temperature (b) the temperature of inversion in this case.

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

In a thermocouple, the temperature of the cold junction and the neutral temperature are -40^(@)C and 275^(@)C respectively. If the cold junction temperature is increased by 60^(@)C , the neutral temperature and temperature of inversion respectively become

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

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

For a thermocouple the neutral temperature is 270^(@)C when its cold junction is at 20^(@)C . What will be the neutral temperature and the temperature of inversion when the temperature of cold junction is increased to 40^(@)C

In a copper-iron thermocouple , the temperature of cold junction is 20^(@) C and the neutral temperature is 280^(@)C . Find the temperature of inversion.