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DC Circuits Quiz #1 Solution

DC Circuits Quiz #1 Solution. Mr. McCall. Find R T. Add series resistors together. R 1,2 = R 1 + R 2 = 20.0 Ω + 1 4.0 Ω = 34.0 Ω. R 4,5 = R 4 + R 5 = 16.0 Ω + 12.0 Ω = 28.0 Ω. Add parallel resistors together. 1/R 3-5 = 1/R 3 + 1/R 4-5 = 1/18.0 Ω + 1/28.0 Ω = 11.0 Ω.

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DC Circuits Quiz #1 Solution

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  1. DC Circuits Quiz #1 Solution

  2. Mr. McCall Find RT Add series resistors together. R1,2 = R1 + R2 = 20.0 Ω+ 14.0 Ω= 34.0 Ω R4,5 = R4 + R5 = 16.0 Ω + 12.0 Ω = 28.0 Ω Add parallel resistors together. 1/R3-5 = 1/R3 + 1/R4-5 = 1/18.0 Ω+ 1/28.0 Ω = 11.0 Ω Add series resistors together. RT = R1 + R2-5 = 34.0 Ω+ 11.0 Ω= 45.0 Ω RT = 45.0 Ω

  3. Mr. McCall RT = 45.0Ω VT = IT RT VT/RT = IT 34.0 V • 11.0 V 45.0 V/45.0 Ω = IT = 1.0 A ` • 11.0 V V1,2 = I1,2 R1,2 V1,2 = (1.0 A) (34.0 Ω) = 34.0 V VT = V1 + V2 45.0 V – 34.0 V = 11.0 V V4,5/R4,5 = I4,5 11.0 V/28 Ω = I4 = .393 A V4 = I4 R4 V4 = (.393 A) (16.0 Ω) = V4 =6.29 V .393 A • 1.0 A .393 A

  4. Mr. McCall Find RT Add series resistors together. R1,2 = R1 + R2 = 20.0 Ω+ 12.0 Ω= 32.0 Ω R4,5 = R4 + R5 = 14.0 Ω + 16.0 Ω = 30.0 Ω Add parallel resistors together. 1/R3-5 = 1/R3 + 1/R4-5 = 1/18.0 Ω+ 1/30.0 Ω = 11.3Ω Add series resistors together. RT = R1 + R2-5 = 32.0 Ω+ 11.3 Ω= 43.3 Ω RT = 43.3 Ω

  5. Mr. McCall RT = 43.3 Ω VT = IT RT VT/RT = IT 33.3 V 45.0 V/43.3 Ω = IT = 1.04 A • 11.7 V V1,2 = I1,2 R1,2 V1,2 = (1.04 A) (32.0 Ω) = 33.3 V VT = V1,2 + V3 45.0 V – 33.3 V = 11.7 V V3 = 11.7 V V3/R = I3 11.7 V/ 18 Ω = I3 = .650 A .650 A .650 A • 1.04 A

  6. Mr. McCall Find RT Add series resistors together. R1,2 = R1 + R2 = 20.0 Ω+ 12.0 Ω= 32.0 Ω R4,5 = R4 + R5 = 14.0 Ω + 16.0 Ω = 30.0 Ω Add parallel resistors together. 1/R3-5 = 1/R3 + 1/R4-5 = 1/18.0 Ω+ 1/30.0 Ω = 11.7Ω Add series resistors together. RT = R1 + R2-5 = 32.0 Ω+ 11.7 Ω= 43.3 Ω RT = 43.3 Ω

  7. Mr. McCall RT = 43.3 Ω VT = IT RT VT/RT = IT 45.0 V/43.3 Ω = IT = 1.04 A I2 = 1.04 A V2 = I2 R2 V2 = (1.04 A) (12.0 Ω) = 12.5 V V2 = 12.5 V 1.04 A

  8. Problem Solving Guidelines • Find the total resistance. • Find the total current through the battery. • Find the resistor in series or in parallel to the battery and determine what this resistor has in common with the battery. If the resistor is in series with the battery, then the resistor has the same current as the current through the battery. If the resistor is in parallel with the battery, then the resistor has the same voltage as the battery. 4) Use Ohm’s Law or Kirchhoff’s Loop rule or Junction rule to determine the needed value of current or voltage.

  9. END

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