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Chapter 35: Electric Circuits. Conceptual Physics Bloom High School. 35.1 A Battery & a Bulb. Circuit- a complete path that the electrons take Electrons flow from the battery (dry cell) from the negative end and travel to the positive end
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Chapter 35: Electric Circuits Conceptual Physics Bloom High School
35.1 A Battery & a Bulb • Circuit- a complete path that the electrons take • Electrons flow from the battery (dry cell) from the negative end and travel to the positive end • Electrons are provided by the battery, wires, components • Water as analogy • Battery=pump • Wires=pipe or hose • Bulb=device that operates • http://faraday.physics.utoronto.ca/IYearLab/Intros/DCI/Flash/WaterAnalogy.html
35.2 Electric Circuits • Switch- allows for a gap in a circuit • Gaps cause the electrons to stop flowing • Turns the flow on and off • Water analogy differences • Closing a circuit = turn the flow on • Opening a faucet = turning the flow on • Wires can’t “leak” like a pipe or hose • Series- devices that are connected in a row • Allows for a single path for the electrons • Parallel- devices are connected by their own ‘branch’ • Allows for several paths an electron can take
35.3 Series Circuits • Rules of Series Circuits • 1. Current flows equally through each device. • 2. The total resistance of the circuit is equal to the sum of the individual resistances. • 3. The current is equal to the voltage of the source divided by the total resistance. (Ohm’s Law) • 4. Ohm’s Law also applies to each individual device based on its resistance. • 5. The total voltage of the circuit is equal to the sum of the individual voltage drops across each device.
The total resistance of the circuit is equal to the sum of the individual resistances. • The total resistance of this circuit is 18kW.
The current is equal to the voltage of the source divided by the total resistance. (Ohm’s Law)
Ohm’s Law also applies to each individual device based on its resistance.
The total voltage of the circuit is equal to the sum of the individual voltage drops across each device.
Series Circuits • Disadvantages • If one device fails, the whole circuit fails • Old Christmas lights • You don’t need to use everything to use one thing • Microwave + Toaster + TV
Parallel Circuits • Rules of Parallel Circuits • 1. Each device connects the same two points of a circuit. The voltage is equal in each ‘branch.’ • 2. The total current is divided among the branches. • a. Path of least resistance is always taken. • Current inversely proportional to resistance • Ohm’s Law applies separately to each branch
Parallel Circuits • Rules, part 2 • 3. The total current is equal to the sum of the currents. • 4. As the number of branches increases, the overall resistance decreases. • Overall resistance is less than the resistance of any one branch.
The total current is equal to the sum of the currents. • Physics Physlet P.30.2
As the number of branches increases, the overall resistance decreases.
35.5 Schematic Diagrams • Schematic diagrams- uses symbols to represent parts of a circuit
35.6 Combining Resistors in a Compound Circuit • Is series, the resistances are added up • In parallel, the addition is more complicated • 1/R=1/R1+1/R2+1/R3… • Add parallel resistances first • Make the circuit appear to be series • Add series resistances
35.7 Parallel Circuits & Overloading • Homes are fed with parallel circuits from utility companies • More appliances added allows for lower resistance for the current • Greater current can occur in the wires • Overloaded- higher amount of current in wires than is safe • Fire may result • Short Circuit- a new, shorter path is offered and often bypasses regular resistance • Fuses- rated to self-destruct (melt) at a certain current level (amperage) • Circuit breakers- designed to turn off at a certain amperage
Circuit Breakers • Increasing current boosts an electromagnets force. • When the current jumps to unsafe levels, the electromagnet pulls down a metal lever. • The linkage tilts the moving contact away from the stationary contact to break the circuit.
Fuses • Internal wire designed to melt at a prescribed amperage • In older homes, look like a light bulb base • Most car fuses look similar to this • Other types of fuses