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Turn up the heating The electric current Heating effects of a current Voltage – Current graphs.

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Presentation on theme: "Turn up the heating The electric current Heating effects of a current Voltage – Current graphs."— Presentation transcript:

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2 Turn up the heating The electric current Heating effects of a current Voltage – Current graphs

3 Electric current (I) What is an electric current? An electric current is a flow of charges and it is measured in amperes (A). An electric current through a circuit is similar to water running through a system of pipes. Describe the features of an electric current that this model cannot explain. Hint: what happens if you cut the water pipe? If we cut the water pipe the water still runs out, but cutting a wire in the circuit breaks the circuit and the electric current stops flowing.

4 Heating effects of a current Choose the component that for a given current will get hotter than the others. Resistor Diode Filament lamp

5 Resistors For relatively low currents the resistor stays at constant temperature and its resistance does not change. I V For this value of the current the resistance is constant and the temperature does not rise. Back

6 Diodes The current increases at higher and higher rates, so the resistance gets lower. I V For this value of the current the resistance is lower and the diode does not get hot. Back

7 Filament lamps The current decreases at higher and higher rates, so the resistance gets higher. I V For this value of the current the resistance is higher and the filament inside the lamp gets hotter. Back

8 Heating effects of a current If we keep the same current flowing through a circuit and we change the resistance, the higher the resistance, the hotter the component. Which of these wires will get hotter when the same current flows through them?

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10 Heating effects of a current If we keep the same current flowing through a circuit and we change the resistance, the higher the resistance, the hotter the component. Which of these wires will get hotter when the same current flows through them?

11 Voltage – Current graphs What does the gradient of this graph represent? The gradient of a V – I graph is the resistance I V The gradient of the line is V/I, but R = V/I Gradient = Resistance

12 Voltage – Current graphs So if you calculate the gradient of the graph you have found the resistance! I (A) V (V) Calculate the gradient of this graph. 1 2 3 4 5 6 7 12345678 Gradient = 5 volts 6 amps = 0.83 ohms

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