1. Electrical Circuits Section 7.3

2. Electrical Circuits Circuits rely on generators at power plants to produce a voltage difference across the outlet, causing the charge to Flow when the circuit is complete Circuits rely on generators at power plants to produce a voltage difference across the outlet, causing the charge to Flow when the circuit is complete Series Circuit- the current has only one path to flow through Series Circuit- the current has only one path to flow through

3. Series Circuits

4. Series circuit The parts of a series circuit are wired one after another, so the amount of current is the same through every part The parts of a series circuit are wired one after another, so the amount of current is the same through every part Open Circuit- if any part of the circuit is disconnected, no current flows Open Circuit- if any part of the circuit is disconnected, no current flows Example- old style Christmas lights Example- old style Christmas lights

5. Voltage Source Wire- conductor Load- like a bulb Switch

6. Parallel Circuit Parallel Circuit- contains two or more paths for the current to move through Parallel Circuit- contains two or more paths for the current to move through

7. Parallel Circuits Individual parts can be opened without affecting the entire circuit Individual parts can be opened without affecting the entire circuit Like the lights in your house Like the lights in your house Household circuits are parallel circuits Household circuits are parallel circuits Each branch receives 120 V from the electric company Each branch receives 120 V from the electric company Electrical energy enters your home at the circuit breaker or fuse box and branches out to wall sockets, major appliances, and lights Electrical energy enters your home at the circuit breaker or fuse box and branches out to wall sockets, major appliances, and lights

8. Circuits Guards against overheating electric wires: Guards against overheating electric wires: Fuses- contain a small piece of metal that melts if the current becomes too high, opening the circuit and stopping the flow of current Fuses- contain a small piece of metal that melts if the current becomes too high, opening the circuit and stopping the flow of current Circuit breakers- contain a small piece of metal that bends when it gets hot, opening the circuit and stopping the current Circuit breakers- contain a small piece of metal that bends when it gets hot, opening the circuit and stopping the current

9. Electrical Power Electrical power- the rate at which electrical energy is converted to another form of energy Electrical power- the rate at which electrical energy is converted to another form of energy Electrical power is expressed in watts (W) Electrical power is expressed in watts (W) Power = current x voltage difference Power = current x voltage difference P (watts) = I (amperes) x V (volts) P (watts) = I (amperes) x V (volts)

10. Electrical Power To calculate amount of energy an appliance uses: To calculate amount of energy an appliance uses: The unit of electrical energy is the kilowatt - hour (kWh), which equals 1000 watts of power used for one hour The unit of electrical energy is the kilowatt - hour (kWh), which equals 1000 watts of power used for one hour Energy = power x time Energy = power x time E (kWh) = P (kW) x t (h) E (kWh) = P (kW) x t (h)