2.2 kW power is supplied through a line of `10Omega` resistance under 22000 V voltage differnce . What is the rate of heat dissipation in the line ?

If 2.2 kW power is transmitted through a 10 ohm line at 22,000 V, the power loss in the form of heat will be

Electrical energy is transmitted at the rate of 2.2 MW through the line wire . The resistance of the line wire is 25Omega .Calculate the percentaage of heat dissipation of the electrical energy for each line voltage : 22000 V 110 kV

Electrical energy is transmitted at the rate of 2.2 MW through the line wire . The resistance of the line wire is 25Omega .Calculate the percentaage of heat dissipation of the electrical energy for each line voltage : 110 kV

If 2.2 kilowatt power is transmitted through a 10 ohm line at 22000 volt , the power loss in the form of heat will be

Two wires of same mass , having ratio of lengths 1 : 2, density 1 : 3 , and resistivity 2 : 1 , are connected one by one to the same voltage supply. The rate of heat dissipation in the wire is found to be 10 W . Find the rate of heat dissipation in the second wire.

If 2.2kW power is trabsmitted through a 10 W line at 22 kV, power loss in the from of heat will be

If 2.2 kW of power having 22000 V is transmitted on a transmission line with 10 Omega resistance then power dissipated in the form of thermal energy will be ……

A 660-W electric lheater is hdesigned to operate from 129V lines. What is the resistance? What current does it draw? What is the rate of production of heat in calories per second? If the line voltage drops to 110V. What is power does the heater takes in waits? (J=4.2 joules per calorie).