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Ohm’s Law Foldable First, cut out your equilateral triangle of 8 ½” on each side, Then fold over the flaps! Side One Overview (Outside) Side Two Overview (Inside) Central Triangle (Inside) Ohm’s Law Formula Left Side (Inside) About Current CURRENT: I = V/R I is Current, measured in Amperes This is the rate at which the charge flows through the circuit Current is the SAME at all points In parallel circuits, charge is divided up between the branches, but NOT ALWAYS EQUALLY Current can be found by dividing charge flow by time 1Amp = 1 Coulomb per Second Current travels from a positive to a negative terminal Voltage: V = I x R V is Voltage, measured in Volts Voltage is usually provided by a battery voltage drops across each resistor in a series and will change the elecric potential Voltage drops in parallel, always equal to the total voltage series batteries are added to increase voltage parallel batteries equal the voltage of one single battery, but the effect lasts much longer Resistance: R = V/I R is resistance, measured in Ohms Resistors resist the current flowing through circuits In series circuits, just add the resistors together to find the total amount of resistance in the circuit In parallel circuits, it is the inverse of (1/R1) = (1/R2)...to find the total Series: RTot = R1 + R2 + R3... Parallel: RTot = [1/R1 + 1/R2...]-1 Side Two (Outside) Title it “Ohm’s Law Foldable” or something much more creative! Include your name, class period, and date constructed. Right Triangle (Outside) Parallel Circuits Parallel Circuits: [DRAW DIAGRAM] -More than one path for current -One light goes out, others will stay on Left Triangle (Outside) Series Circuits Series Circuits: [DRAW DIAGRAM] -Only one path for current -One light goes out, all others go out with it Bottom Triangle (Outside) Series In Parallel Circuits Series in Parallel Circuits: [DRAW DIAGRAM] -These have complicated pathways -Depending on which light goes out, others may stay on…or may go out with it!