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Ch Electricity II. Electric Current Circuit Potential Difference

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Presentation on theme: "Ch Electricity II. Electric Current Circuit Potential Difference"— Presentation transcript:

1 Ch. 16 - Electricity II. Electric Current Circuit Potential Difference
Resistance Ohm’s Law

2 A. Electric Current The flow of charges through a wire or conductor is called electric current. Current is usually the flow of electrons. Electric current is measured in amperes (A). Charges flow from high voltage to low voltage.

3 A. Circuit For charges to flow, the wire must always be connected in a closed path, or circuit.

4 C. Resistance Resistance
Resistance—the tendency for a material to oppose the flow of electrons, changing electrical energy into thermal energy and light All materials have some electrical resistance. Resistance is measured in ohms (Ω). Making wires thinner, longer, or hotter increases the resistance. Tungsten - high resistance Copper - low resistance

5 V = I × R E. Ohm’s Law V: potential difference (V) I: current (A)
Ohm’s Law-the current in a circuit equals the voltage difference divided by the resistance V: potential difference (V) I: current (A) R: resistance () V = I × R Voltage increases when current increases. Voltage decreases when resistance increases.

6 E. Ohm’s Law R V I R = 160  I = V ÷ R V = 120 V I = (120 V) ÷ (160 )
A lightbulb with a resistance of 160  is plugged into a 120-V outlet. What is the current flowing through the bulb? GIVEN: R = 160  V = 120 V I = ? WORK: I = V ÷ R I = (120 V) ÷ (160 ) I = 0.75 A I V R

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