Resistance, Ohm’s Law & Circuits

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Resistance, Ohm’s Law & Circuits

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Presentation transcript:

Resistance, Ohm’s Law & Circuits Georg Ohm Physics 1161: Lecture 08 Resistance, Ohm’s Law & Circuits Homework, keep lots of digits! 1

Today Resistors R = V/I Last Time Capacitors C = Q/V -- definition Physical C = e0A/d Series 1/Ceq = 1/C1 + 1/C2 Parallel Ceq = C1 + C2 Energy U = 1/2 QV Today Resistors R = V/I Physical R = r L/A Series Req = R1 + R2 Parallel 1/Req = 1/R1 + 1/R2 Power P = IV

Preflight 8.1 2 1 Two cylindrical resistors are made from the same material. They are of equal length but one has twice the diameter of the other. R1 > R2 R1 = R2 R1 < R2

Example e Simple Circuit Practice… Calculate I when e=24 Volts and R = 8 W Ohm’s Law: V =IR I = V/R = 3 Amps

Note: I is the same everywhere in this circuit! Preflight 8.3 R1=1W e0 R10=10W Compare I1 the current through R1, with I10 the current through R10. I1 < I10 I1 = I10 I1 > I10 Note: I is the same everywhere in this circuit!

Compare V1 the voltage across R1, with V10 the voltage across R10. V1>V10 V1=V10 V1< V10 R1=1W e0 R10=10W

Compare V1 the voltage across R1, with V10 the voltage across R10. V1>V10 V1=V10 V1< V10 R1=1W e0 R10=10W V1 = I1 R1 = 1 x I V10 = I10 R10 = 10 x I

Practice: Resistors in Series Example Practice: Resistors in Series R1=1W e0 R2=10W Calculate the voltage across each resistor if the battery has potential V0= 22 volts. Simplify (R1 and R2 in series): R12 = R1 + R2 V12 = V1 + V2 I12 = I1 = I2 R12 e0 = 11 W = V0 = 22 Volts = V12/R12 = 2 Amps Expand: V1 = I1R1 V2 = I2R2 = 2 x 1 = 2 Volts R1=1W e0 R2=10W = 2 x 10 = 20 Volts Check: V1 + V2 = V12 ? YES!

Preflight 8.5 What happens to the current through R2 when the switch is closed? Increases Remains Same Decreases V2 = ε = I2R2

What happens to the current through the battery when the switch is closed? Increases Remains Same Decreases

What happens to the current through the battery when the switch is closed? Increases Remains Same Decreases

Practice: Resistors in Parallel Example Practice: Resistors in Parallel R2 R3 e Determine the current through the battery. Let E = 60 Volts, R2 = 20 W and R3=30 W. Simplify: R2 and R3 are in parallel R23 e 1/R23 = 1/R2 + 1/R3 V23 = V2 = V3 I23 = I2 + I3 R23 = 12 W = 60 Volts = V23 /R23 = 5 Amps

Why is it dangerous to use one power strip to plug in and use simultaneously your microwave, coffee pot, toaster, and hair dryer (current through hair dryer is 10 A)? The resistance of the kitchen circuit is too high. The voltage across the kitchen circuit is too high. The current in the kitchen circuit is too high.

Why is it dangerous to use one power strip to plug in and use simultaneously your microwave, coffee pot, toaster, and hair dryer (current through hair dryer is 10 A)? The resistance of the kitchen circuit is too high. The voltage across the kitchen circuit is too high. The current in the kitchen circuit is too high.

Preflight 8.6, 8.7 1 2 3 R 2R R/2 Which configuration has the smallest resistance? 1 2 3 Which configuration has the largest resistance? 2

Parallel + Series Tests Resistors R1 and R2 are in series if and only if every loop that contains R1 also contains R2 Resistors R1 and R2 are in parallel if and only if you can make a loop that has ONLY R1 and R2 Same rules apply to capacitors!!

Summary Each resistor on the same wire. Series Parallel R1 R1 R2 R2 Each resistor on the same wire. Each resistor on a different wire. Wiring Different for each resistor. Vtotal = V1 + V2 Same for each resistor. Vtotal = V1 = V2 Voltage Same for each resistor Itotal = I1 = I2 Different for each resistor Itotal = I1 + I2 Current Increases Req = R1 + R2 Decreases 1/Req = 1/R1 + 1/R2 Resistance