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Physics 212 Lecture 10

Physics 212 Lecture 10. Today's Concept: Kirchhoff’s Rules Circuits with resistors & batteries. Music. Who is the Artist? Norah Jones Diana Krall Jane Monheit Nina Simone Marcia Ball. New album with Paul McCartney (and Eric Clapton and Stevie Wonder)

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Physics 212 Lecture 10

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  1. Physics 212 Lecture 10 Today's Concept: Kirchhoff’s Rules Circuits with resistors & batteries

  2. Music • Who is the Artist? • Norah Jones • Diana Krall • Jane Monheit • Nina Simone • Marcia Ball • New album with Paul McCartney (and Eric Clapton and Stevie Wonder) • Anyone know the connection between Oscar Peterson and Diana Krall? • Both great Canadian jazz pianists – Peterson was one of Krall’s mentors Physics 212 Lecture 10

  3. Your Comments: “This stuff is loopy” “The conventions for signs of voltage drops and gains make absolutely no sense. Why is a voltage drop considered positive and a gain negative?” “determining which way current flows and application of Kirchoff’srules will need a ton of practice since this is all new to me.” “Discuss multiple currents more. It is pretty confusing to understand.” We’ll start simply, with the checkpoints, then to a calculation “I don't really understand how Kirchhoff's Rules apply to the blue wire problem. Could we please go over these problems in lecture? That would be a huge help!” This is a great example – we’ll do it at the end to make sure of the concepts "Fluke" is not a good brand name for a multimeter. Advertisement: "If the data is good, it must have been a Fluke."

  4. Today’s Plan: • Summary of Kirchoff’s rules – these are the key concepts • Example problem • Review Checkpoints

  5. Last Time R2 R1 V • Resistors in series: I1234 R1234 V R3 Current through is same. Voltage drop across is IRi R4 Resistors in parallel: Voltage drop across is same. Current through is V/Ri • Solved Circuits = 5

  6. Last Time 5

  7. New Circuit V R1 R1 I1234 R12 R3 V1 V1 V2 V2 R2 R2 How Can We Solve This One? R3 = THE ANSWER: Kirchhoff’s Rules 5

  8. Kirchoff’s Voltage Rule Kirchoff's Voltage Rule states that the sum of the voltage changes caused by any elements (like wires, batteries, and resistors) around a circuit must be zero. WHY? The potential difference between a point and itself is zero !

  9. Kirchoff’s Current Rule Kirchoff's Current Rule states that the sum of all currents entering any given point in a circuit must equal the sum of all currents leaving the same point. WHY? Electric Charge is Conserved

  10. Checkpoint 1 How many potentially different currents are there in the circuit shown? A. 3 B. 4 C. 5 D. 6 E. 7 “two for the parallel branch and then one for the first and last resistors .” A “There are four different series connections” B C D “there is potentially one between every pair of resistors.”

  11. Checkpoint 1 How many potentially different currents are there in the circuit shown? I1 I3 I2 I1 I3 A. 3 B. 4 C. 5 D. 6 E. 7 Look at the nodes! Top node: I1 flows in, I2 and I3 flow out A Bottom node: I2 and I3 flow in, I1 flows out B C D That’s all of them!

  12. Checkpoint 2 In the following circuit, consider the loop abc. The direction of the current through each resistor is indicated by black arrows. If we are to write Kirchoff's voltage equation for this loop in the clockwise direction starting from point a, what is the correct order of voltage gains/drops that we will encounter for resistors R1, R2 and R3? A. drop, drop, drop B. gain, gain, gain C. drop, gain, gainD. gain, drop, drop E. drop, drop, gain A B C D “going with current is drop, against current is gain” E “The voltage gains when the current is flowing with the voltage” “drops 2 times at the split then gains when merging”

  13. Checkpoint 2 GAIN GAIN With the current VOLTAGE DROP Against the current VOLTAGE GAIN In the following circuit, consider the loop abc. The direction of the current through each resistor is indicated by black arrows. DROP If we are to write Kirchoff's voltage equation for this loop in the clockwise direction starting from point a, what is the correct order of voltage gains/drops that we will encounter for resistors R1, R2 and R3? A. drop, drop, drop B. gain, gain, gain C. drop, gain, gainD. gain, drop, drop E. drop, drop, gain A B C D E

  14. Calculation 2V In this circuit, assume Vi and Ri are known. What is I2?? 1V I2 1V • Conceptual Analysis: • Circuit behavior described by Kirchhoff’s Rules: • KVR:SVdrops = 0 • KCR:SIin = SIout • Strategic Analysis • Write down Loop Equations (KVR) • Write down Node Equations (KCR) • Solve

  15. Calculation I1 + - - + I2 + - + - I3 - + + - (1) Label and pick directions for each current This is easy for batteries For resistors, the “upstream” side is + V1 R1 In this circuit, assume Vi and Ri are known. What is I2?? V2 R2 R3 V3 (2) Label the + and – side of each element Now write down loop and node equations

  16. Calculation • How many equations do we need to write down in order to solve for I2? (A) 1(B) 2(C) 3 (D) 4 (E) 5 V1 R1 I1 + - - + V2 R2 I2 In this circuit, assume Vi and Ri are known. What is I2?? + - + - I3 R3 V3 - + + - • Why?? • We have 3 unknowns: I1, I2, and I3 • We need 3 independent equations to solve for these unknowns • (3) Choose loops and directions

  17. Calculation • Which of the following equations is NOT correct? • I2 = I1 + I3 • - V1 + I1R1 - I3R3 + V3 = 0 • - V3 + I3R3 + I2R2 + V2 = 0 • - V2 – I2R2 + I1R1 + V1 = 0 V1 R1 I1 + - - + V2 R2 I2 In this circuit, assume Vi and Ri are known. What is I2?? + - + - R3 V3 I3 - + + - (4) Write down voltage drops (5) Write down node equation • Why?? • (D) is an attempt to write down KVR for the top loop • Start at negative terminal of V2 and go clockwise • Vgain (-V2) then Vgain (-I2R2) then Vgain (-I1R1)then Vdrop (+V1)

  18. Calculation V1 R1 I1 V2 R2 I2 In this circuit, assume Vi and Ri are known. What is I2?? R3 V3 I3 • We have the following 4 equations: We need 3 equations: Which 3 should we use? 1. I2 = I1 + I3 2.- V1 + I1R1 - I3R3 + V3 = 0 3. - V3 + I3R3 + I2R2 + V2 = 0 4. - V2 – I2R2 - I1R1 + V1 = 0 A) Any 3 will do B) 1, 2, and 4 C) 2, 3, and 4 • Why?? • We need 3 INDEPENDENT equations • Equations 2, 3, and 4 are NOT INDEPENDENT • Eqn 2 + Eqn 3 = - Eqn 4 • We must choose Equation 1 and any two of the remaining ( 2, 3, and 4)

  19. Calculation 2V R I1 V 2R I2 R V I3 V1 R1 I1 In this circuit, assume Vi and Ri are known. What is I2?? V2 R2 I2 R3 V3 I3 • We have 3 equations and 3 unknowns. • I2 = I1 + I3 • V1 + I1R1 - I3R3 + V3 = 0 • V2 – I2R2 - I1R1 + V1 = 0 (6) Solve the equations • The solution will get very messy! • Simplify: assume V2 = V3 = V • V1 = 2V • R1 = R3 = R • R2 = 2R

  20. Calculation: Simplify 2V R I1 current direction V 2R I2 R V I3 In this circuit, assume V and R are known. What is I2?? • We have 3 equations and 3 unknowns. • I2 = I1 + I3 • -2V + I1R - I3R + V = 0 (outside) • -V – I2(2R) - I1R + 2V= 0 (top) • With this simplification, you can verify: • I2 = ( 1/5) V/R • I1 = ( 3/5) V/R • I3 = (-2/5) V/R

  21. Follow-Up • Suppose we short R3: What happens to Vab (voltage across R2?) • Vab remains the same • Vab changes sign • Vab increases • Vab goes to zero 2V 2V R R I1 I1 V 2R V I2 2R I2 d a b V I3 R V I3 Bottom Loop Equation: c Vab + V – V = 0 Vab = 0 • We know: • I2 = ( 1/5) V/R • I1 = ( 3/5) V/R • I3 = (-2/5) V/R a b Why? Redraw:

  22. No current flows between A & B Some current flows down Current flows from battery and splits at A Some current flows right A B V R R • Is there a current flowing between A and B ? • Yes • No A & B have the same potential

  23. Checkpoint 3a Consider the circuit shown below. Note that this question is not identical to the similar looking one you answered in the prelecture. I1 I2 Which of the following best describes the current flowing in the blue wire connecting points a and b? A. Positive current flows from a to b B. Positive current flows from b to aC. No current flows between a and b “Energy flows toward least resistance, which is 1R.” “because b has higher voltage than a” “The top half is the same as the bottom half.”

  24. Checkpoint 3a I I2 = ½ I1 I4 = 2 I3 I = +I3 I1 = 2I3 I1 - I3 + ½ I1 = 2I3 Consider the circuit shown below. Note that this question is not identical to the similar looking one you answered in the prelecture. I1 I2 I2 I1 I4 I3 Which of the following best describes the current flowing in the blue wire connecting points a and b? A. Positive current flows from a to b B. Positive current flows from b to aC. No current flows between a and b Which of the following best describes the current flowing in the blue wire connecting points a and b? I1R – I2 (2R) = 0 I4R – I3 (2R) = 0 a: I1 = I + I3 b: I + I2 = I4

  25. 2R 2R 3 3 Prelecture Checkpoint What is the same? Current flowing in and out of the battery What is different? Current flowing from a to b

  26. R 2R 1/3 I 2/3I 1/3I 2/3I 2/3I 1/3I 1/3I 0 2/3I 2/3I 1/3I I I 1/3 2/3I R 2R V a b V/2

  27. Checkpoint 3b Consider the circuit shown below. In which case is the current flowing in the blue wire connecting points a and b the largest? A. Case A B. Case B C. They are both the same “Case A has a lower Req” “The resistors have a value of 4R in Case B, so the current will be more apt to bypass this section of the circuit” “The total resistance in the path taken is the same for both”

  28. Checkpoint 3b IA IB c c Current will flow from left to right in both cases In both cases, Vac = V/2 I2R = 2I4R Consider the circuit shown below. In which case is the current flowing in the blue wire connecting points a and b the largest? A. Case A B. Case B C. They are both the same IA = IR – I2R = IR – 2I4R IB = IR – I4R

  29. r V0 VL R Model for Real Battery: Internal Resistance + r VL R V0 Usually can’t supply too much current to the load without voltage “sagging”

  30. Kirchhoff’s Laws I1 - + + + - - + I2 I3 I4 - - - + - + + - + • (1) Label all currents • Choose any direction R1 (2) Label +/- for all elements Current goes +  - (for resistors) Battery signs fixed! A I6 R2 V3 B • (3) Choose loops and directions • Must start on wire, not element. V1 R3 R4 V2 (4) Write down voltage drops First sign you hit is sign to use. R5 I5 (5) Write down node equations Iin = Iout (6) Solve set of equations 17

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