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Heating effect of electricity is one of the widely used effects in the world. When electric current is passed through a conductor, it generates heat due.

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Presentation on theme: "Heating effect of electricity is one of the widely used effects in the world. When electric current is passed through a conductor, it generates heat due."— Presentation transcript:

1 Heating effect of electricity is one of the widely used effects in the world. When electric current is passed through a conductor, it generates heat due to the resistance it offers to the current flow. The work done in overcoming the resistance is generated as heat. Electricity Heating effect of Electric Current

2 The heat (H) produced by a heating element is: (i)directly proportional to the square of the electric current (I) passing through the conductor. (ii) directly proportional to the resistance (R) of the conductor. Electricity Heating effect of Electric Current

3 (iii) directly proportional to the time (t) for which the current flows through the resistor. It is given by the expression H = I 2 Rt and is well known as Joule’s Law. Electricity Heating effect of Electric Current

4 Practical Applications of Heating Effect of Electric Current Electricity Heating effect of Electric Current  T The heating effect of electric current is used in electrical appliances like electric heater, electric iron, electric room heater, immersion heater, electric kettle, hair dryer etc.

5 All these appliances have a coil of wire called an element. When electric current flows through the element it becomes hot and gives out heat. The amount of heat produced in a wire depends upon its material, length and thickness. Electricity Heating effect of Electric Current

6 Electric Fuse Electric fuse is a safety device used in electrical circuits which protects the electrical circuits and appliances and prevents fires. Electric fuse has a wire which melts quickly and break when large electric current flows through it. Electricity Heating effect of Electric Current

7 The fuses used for domestic purposes are rated as 1 A, 2 A, 3 A, 5 A, 10 A, etc. For an electric iron which consumes 1 kW electric power when operated at 220 V, a 5 A fuse must be used. Electricity

8 An electric kettle consumes energy at a rate of 840 W when heating is at the maximum rate and 360 W when the heating is at the minimum. The voltage is 220 V. What are the current and the resistance in each case? The power input is P = V I Thus the current I = P/V (a) When heating is at the maximum rate, I = 840 W/220 V = 3.82 A; Electricity Heating effect of Electric Current Example Solution

9 (b) When heating is at the minimum rate, I = 360 W/220 V = 1.64 A; and the resistance of the electric kettle is R = V/I = 220 V/1.64 A = 134.15 Ω. Electricity Heating effect of Electric Current and the resistance of the electric kettle is R = V/I = 220 V/3.82 A = 57.60 Ω.

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