You have a circuit with two resistors (0.1 MQ and 0.2 MQ) in series with a 30 V DC supply. (a) Using Ohm's law, calculate the theoretical voltage drop (without loading error) across the 0.2 M2 resistor. (b) What would the measured voltage across the 0.2 MQ resistor be using a voltage meter with an internal resistance of 250 MQ? (c) What would the measured voltage across the 0.2MN resistor be using a voltage meter with an internal resistance of 1,000 MQ? (d) Calculate the percentage loading error for parts b and c.
You have a circuit with two resistors (0.1 MQ and 0.2 MQ) in series with a 30 V DC supply. (a) Using Ohm's law, calculate the theoretical voltage drop (without loading error) across the 0.2 M2 resistor. (b) What would the measured voltage across the 0.2 MQ resistor be using a voltage meter with an internal resistance of 250 MQ? (c) What would the measured voltage across the 0.2MN resistor be using a voltage meter with an internal resistance of 1,000 MQ? (d) Calculate the percentage loading error for parts b and c.
Introductory Circuit Analysis (13th Edition)
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Please calculate all parts a,b,c,d
![Problem 4.8:
V
0.1 MQ
0.2 M2
30 V
You have a circuit with two resistors (0.1 MO and 0.2 MQ) in series with a 30 V DC
supply.
(a) Using Ohm's law, calculate the theoretical voltage drop (without loading
error) across the 0.2 MQ resistor.
(b) What would the measured voltage across the 0.2 MQ resistor be using a
voltage meter with an internal resistance of 250 MQ?
(c) What would the measured voltage across the 0.2M2 resistor be using a
voltage meter with an internal resistance of 1,000 MQ?
(d) Calculate the percentage loading error for parts b and c.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fb4a2eca6-0785-4c21-9b72-a47a783c5c2b%2Fbcb1e5e1-656e-4c0f-8158-a79e79a91fa8%2F4tjbigq_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Problem 4.8:
V
0.1 MQ
0.2 M2
30 V
You have a circuit with two resistors (0.1 MO and 0.2 MQ) in series with a 30 V DC
supply.
(a) Using Ohm's law, calculate the theoretical voltage drop (without loading
error) across the 0.2 MQ resistor.
(b) What would the measured voltage across the 0.2 MQ resistor be using a
voltage meter with an internal resistance of 250 MQ?
(c) What would the measured voltage across the 0.2M2 resistor be using a
voltage meter with an internal resistance of 1,000 MQ?
(d) Calculate the percentage loading error for parts b and c.
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