In the table below, you can see that again, someone has taken current and voltage readings for the circuit, using different values for the two resistors. In this case, it's the voltage across the parallel combination of resistors that's given in column VTOT. 1 2 3 R₁ (52) 33 33 47 R₂ (52) 33 47 47 Part 2: Parallel circuits I (A) 0.309 0.262 0.215 V₁ (V) 5.00 5.00 5.00 35 (M) 5.00 5.00 5.00 VTOT (V) 5.00 5.00 5.00 Reg (Ohm Law) (22) Req (Using the rule for parallel resistors) (52) PART 2 ANALYSIS 6. Examine the data from Part 2. According to the textbook, what should be the relationship between the three voltage readings: V₁, V₂, and VTOT? How do the data support this?

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In the table below, you can see that again, someone has taken current and voltage readings for
the circuit, using different values for the two resistors. In this case, it's the voltage across the
parallel combination of resistors that's given in column VTOT.
1
2
3
R₁
(52)
33
33
47
R₂
(52)
33
47
47
Part 2: Parallel circuits
I
(A)
0.309
0.262
0.215
V₁
(V)
5.00
5.00
5.00
35
5.00
5.00
5.00
VTOT
(V)
5.00
5.00
5.00
Req
(Ohm Law)
(12)
Req
(Using the
rule for
parallel
resistors)
(52)
PART 2 ANALYSIS
6. Examine the data from Part 2. According to the textbook, what should be the relationship
between the three voltage readings: V₁, V₂, and VTOT? How do the data support this?
Transcribed Image Text:In the table below, you can see that again, someone has taken current and voltage readings for the circuit, using different values for the two resistors. In this case, it's the voltage across the parallel combination of resistors that's given in column VTOT. 1 2 3 R₁ (52) 33 33 47 R₂ (52) 33 47 47 Part 2: Parallel circuits I (A) 0.309 0.262 0.215 V₁ (V) 5.00 5.00 5.00 35 5.00 5.00 5.00 VTOT (V) 5.00 5.00 5.00 Req (Ohm Law) (12) Req (Using the rule for parallel resistors) (52) PART 2 ANALYSIS 6. Examine the data from Part 2. According to the textbook, what should be the relationship between the three voltage readings: V₁, V₂, and VTOT? How do the data support this?
10. For each of the three parallel circuits, calculate the percent error between your experimental
result from Ohm's Law and the predicted equivalent resistance value for parallel resistors.
Do these values seem reasonable, given that resistors are labeled with percent tolerance
ratings that allow for their real resistance values to differ from their labeled values?
Transcribed Image Text:10. For each of the three parallel circuits, calculate the percent error between your experimental result from Ohm's Law and the predicted equivalent resistance value for parallel resistors. Do these values seem reasonable, given that resistors are labeled with percent tolerance ratings that allow for their real resistance values to differ from their labeled values?
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