A. Suppose an ammeter having a resistance of 0.5 is connected in parallel across a resistor of 50.0 2 as shown in the figure at the right. 1. If the system is connected up to a 12 V battery, how much current would pass through the ammeter? (Assume you can ignore the internal resistance of the battery.) 2. How much current would pass through the 50 ohm resistor? Is this ammeter giving a good measure of the current in the 50 ohm resistor? Explain why or why not. 3. Is this ammeter giving a good measurement of what the current would be in the resistor if the ammeter weren't there? B. Suppose instead the ammeter were in series with the resistor as shown in the figure at the right. 1. If the system is connected up to a 12 V battery, how much current would pass through the meter? 2. How much current would pass through the 50 ohm resistor? Is this ammeter giving a good measure of the current in the 50 ohm resistor? Explain why or why not. 3. Is this ammeter giving a good measurement of what the current would be in the resistor if the ammeter weren't there? 0.5 Ω >> 50 Ω 0.5 Ω A 50 Ω A voltmeter is also a device that shows the voltage difference across its terminals, but it has a very large resistance. The next two problems show why. C. Suppose a voltmeter having a resistance of 1500 were in series with a resistor of 50.0 2 as shown in the figure at the right. 1. If the system is connected up to a 12 V battery, what would the voltage drop be across the voltmeter? 2. What would the voltage drop be across the 50 ohm resistor? Is this voltmeter giving a good measure of the voltage drop across the 50 ohm resistor? Explain why or why not. 3. Is this voltmeter giving a good measurement of what the voltage drop across the resistor would be if the voltmeter weren't there? D. Suppose instead, the voltmeter were in parallel with the resistor as shown in the figure at the right. 1. If the system is connected up to a 12 V battery, what would the voltage drop be across the meter? (Assume you can ignore the internal resistance of the battery.) 2. What is the voltage drop across the 50 ohm resistor? Is this voltmeter giving a good measure of the voltage drop across the 50 ohm resistor? Explain why or why not. 3. Is this voltmeter giving a good measurement of what the voltage would be across the resistor if the voltmeter weren't there? 1500 Ω > 1500 Ω > 50 Ω 50 Ω E. So if you were to hook up an ammeter or a voltmeter to measure the current through a resistance or the voltage drop across a resistance respectively, how would you connect it?
A. Suppose an ammeter having a resistance of 0.5 is connected in parallel across a resistor of 50.0 2 as shown in the figure at the right. 1. If the system is connected up to a 12 V battery, how much current would pass through the ammeter? (Assume you can ignore the internal resistance of the battery.) 2. How much current would pass through the 50 ohm resistor? Is this ammeter giving a good measure of the current in the 50 ohm resistor? Explain why or why not. 3. Is this ammeter giving a good measurement of what the current would be in the resistor if the ammeter weren't there? B. Suppose instead the ammeter were in series with the resistor as shown in the figure at the right. 1. If the system is connected up to a 12 V battery, how much current would pass through the meter? 2. How much current would pass through the 50 ohm resistor? Is this ammeter giving a good measure of the current in the 50 ohm resistor? Explain why or why not. 3. Is this ammeter giving a good measurement of what the current would be in the resistor if the ammeter weren't there? 0.5 Ω >> 50 Ω 0.5 Ω A 50 Ω A voltmeter is also a device that shows the voltage difference across its terminals, but it has a very large resistance. The next two problems show why. C. Suppose a voltmeter having a resistance of 1500 were in series with a resistor of 50.0 2 as shown in the figure at the right. 1. If the system is connected up to a 12 V battery, what would the voltage drop be across the voltmeter? 2. What would the voltage drop be across the 50 ohm resistor? Is this voltmeter giving a good measure of the voltage drop across the 50 ohm resistor? Explain why or why not. 3. Is this voltmeter giving a good measurement of what the voltage drop across the resistor would be if the voltmeter weren't there? D. Suppose instead, the voltmeter were in parallel with the resistor as shown in the figure at the right. 1. If the system is connected up to a 12 V battery, what would the voltage drop be across the meter? (Assume you can ignore the internal resistance of the battery.) 2. What is the voltage drop across the 50 ohm resistor? Is this voltmeter giving a good measure of the voltage drop across the 50 ohm resistor? Explain why or why not. 3. Is this voltmeter giving a good measurement of what the voltage would be across the resistor if the voltmeter weren't there? 1500 Ω > 1500 Ω > 50 Ω 50 Ω E. So if you were to hook up an ammeter or a voltmeter to measure the current through a resistance or the voltage drop across a resistance respectively, how would you connect it?
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ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
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Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Transcribed Image Text:A. Suppose an ammeter having a resistance of 0.5 is connected in parallel across a resistor of 50.0 2 as shown in the
figure at the right.
1. If the system is connected up to a 12 V battery, how much current would pass through the ammeter? (Assume you
can ignore the internal resistance of the battery.)
2. How much current would pass through the 50 ohm resistor? Is this ammeter giving a good measure of the current
in the 50 ohm resistor? Explain why or why not.
3. Is this ammeter giving a good measurement of what the current would be in the resistor if the ammeter weren't
there?
B. Suppose instead the ammeter were in series with the resistor as shown in the figure at the right.
1. If the system is connected up to a 12 V battery, how much current would pass through the meter?
2. How much current would pass through the 50 ohm resistor? Is this ammeter giving a good measure of the current
in the 50 ohm resistor? Explain why or why not.
3. Is this ammeter giving a good measurement of what the current would be in the resistor if the ammeter weren't
there?
0.5 Ω
>>
50 Ω
0.5 Ω
A
50 Ω
A voltmeter is also a device that shows the voltage difference across its terminals, but it has a very large resistance. The next two problems show why.
C. Suppose a voltmeter having a resistance of 1500 were in series with a resistor of 50.0 2 as shown in the figure at
the right.
1. If the system is connected up to a 12 V battery, what would the voltage drop be across the voltmeter?
2. What would the voltage drop be across the 50 ohm resistor? Is this voltmeter giving a good measure of the voltage
drop across the 50 ohm resistor? Explain why or why not.
3. Is this voltmeter giving a good measurement of what the voltage drop across the resistor would be if the voltmeter
weren't there?
D. Suppose instead, the voltmeter were in parallel with the resistor as shown in the figure at the right.
1. If the system is connected up to a 12 V battery, what would the voltage drop be across the meter? (Assume you
can ignore the internal resistance of the battery.)
2. What is the voltage drop across the 50 ohm resistor? Is this voltmeter giving a good measure of the voltage drop
across the 50 ohm resistor? Explain why or why not.
3. Is this voltmeter giving a good measurement of what the voltage would be across the resistor if the voltmeter
weren't there?
1500 Ω
>
1500 Ω
>
50 Ω
50 Ω
E. So if you were to hook up an ammeter or a voltmeter to measure the current through a resistance or the voltage drop across a resistance respectively, how would you
connect it?
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