Decide if each is true or false: When a battery no longer works it is out of charged particles (electrons) and needs more particles before it can be used again. A battery is the source of charged particles in a circuit. Charge is used up as it flows through a circuit. The electrical utility company supplies millions of electrons to our homes everyday.
All statements were FALSE!! A dead battery is out of energy required to push charge from one terminal to another Energy can be restored in some batteries with a reversible chemical reaction…so it is more like reenergizing than recharging your batteries Batteries are the source of energy in a circuit, charged particles carry the energy Energy is used in a circuit, not charge Electrons are already in your home, the power company supplies the energy to move the electrons
Circuits A set of electrical components connected to a voltage source in one or more complete paths allowing the movement of charges
Circuits: Requirements All circuits must have three components A source of energy (potential difference, V) A closed conducting loop A device that uses the energy (load) *If ANY part of the circuit is open the device will not work! Source of energy does work to the particles Load
Types of Circuits Closed circuit Open Circuit Short Circuits Path from one terminal to the other is complete. A potential difference exists and electrons move from one terminal to the other. Open Circuit No complete path, No charge flow, No current Short Circuits No load, so no resistance to charge movement. Causes high current, damaging circuit components (burns out battery).
A circuit is like a rollercoaster High Potential It is a complete loop Energy is put into particles to increase potential energy (a battery in a circuit and the first hill in the rollercoaster) Moves from high potential energy to low potential energy. Low Potential
Drawing Schematic Circuits Symbols represent circuit components What I use Wire Light bulb Battery Switch Open Resistor Closed
EMF (Electromotive Force) The energy supplied by a source of electric current From devices that increase the potential energy of electrons moving in a circuit (batteries) Conventional current flow shows the direction of + charges (+ to -) EMF shows the actual flow of electrons (- to +) (Source of EMF)
Ways to Wire a Circuit Series Circuit Parallel Circuit A circuit or part of a circuit that provides a single conducting path. Parallel Circuit A circuit or part of a circuit in which two or more components are connected at a junction, providing multiple conducting paths for the current
Resistors in Series Each resistor has the same current since they are all part of the same loop Itotal = I1 = I2 = I3 The total (equivalent) resistance is the sum of all resistors Req= R1 + R2 + R3 The voltage is shared among resistors Vtotal = V1 + V2 + V3
Resistors in Parallel Same potential difference (voltage) across them. Vtotal = V1 = V2 The sum of currents equals total current Itotal = I1 + I2 Equivalent resistance is the sum of the reciprocals 1/REQ= 1/R1 + 1/R2
Series vs. Parallel Series Parallel Voltage Total is sum of individual voltages Same for each resistor Current Total is sum of individual currents Resistance Sum of resistances Sum of reciprocals
Example 1: What type of circuit is shown? What is the total resistance? What is the total current? What is the current in each resistor? What is the voltage across each resistor? Series Req = 1 + 2 + 3 = 6 W V=IReq 12=I(6) I = 2 A 2 A (same as total) V1Ω = (2)*(1) = 2 V V3Ω = (2)*(3) = 6 V V2Ω = (2)*(2) = 4 V *Notice that the individual voltage drops add up to the total V