Near room t emperature, the thermo emf of a copper constantan couple is `40 muV` per degree. What is the smallest temperature difference that can be detected with a single such couple and a galvanometer of 100 ohm resistance capable of detecting current as low `10^(-6)` ampere?

The smallest temperature difference that can be measured with a combination of a thermocouple of thermo e.m.f. 30mu V per degree and a galvanometer of 50 ohm resistance, capable of measuring a minimum current of 3xx10^(-7) amp is

The coil of a galvanometer is 0.02xx0.8 m^2 . It consists of 200 turns of the wire and is in a magnetic field of 0.20 T. The restoring torque constant of suspension fibre is 10^(-5) Nm//degree. Assuming magnetic field to be radial (a) What is the maximum current that can be measured by this galvanometer if scale can accommodate 45^@ deflection? (b) What is the smallest current that can be detected if minimum observed deflection is 0.1^@ ?

A thermocouple of negligible resistance produces an emf fo 40 mu V//^(@)C in the linear range of temperature. A galvanometer of resistance 10 Omega whose sensitivity is 1 mu A//div is employed with the thermocouple. The smallest value of temperature difference that can be detected by the system will

The constant of a constantan-copper thermocouple is: 4.3xx10^(-2)mV//K . The resistance of the thermocouple is 0.5 ohm, that of the galvanometer 100 ohm. One junction of the thermocouple is immersed in melting ice, the other in a hot liquid. What is its temperature if the current in the circuit is 56muA ?

The area of the coil in a moving coil galvanometer is 16 cm^(2) and has 20 turns. The magnetic induction is 0.2T and the couple per unit twist of the suspended wire is 10^(-6) Nm per degree. If the deflection is 45° calculate the current passing through it.