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A voltmeter has an internal resistance of 10 000 Ω and is used to measure the...
Pre-Lecture Question 11 To answer this question, first click here to view the associated viden A...
Pre-Lecture Question 11 To answer this question, first click here to view the associated viden A voltmeter has an internal resistance of 10 000 Ω and is used to measure the voltage across a 47.0-Ω resistor that, without the voltmeter connected, has a current of 1.20 A pass through it. How much current is drawn away from the circuit by the voltmeter when it is connected across the resistor? 5.6 mA 1.205 A 4.7 mA 0 A A circuit contains...
Although an ideal voltmeter has an infinite internal resistance, this theoretical ideal is usually not met...
Although an ideal voltmeter has an infinite
internal resistance, this theoretical ideal is usually not met in
practice. The voltmeter in the Figure has an internal resistance of
7 x 109 Ω and is used to measure the voltage across the
resistor R2 as shown. Attaching this non-ideal voltmeter
decreases the voltage across R2. Calculate the magnitude
of this decrease using an emf of 16 V and R1 =
R2 = 200 kΩ.
1)A battery having an e.m.f. of 105 V and an internal resistance of 1 Ω is...
1)A battery having an e.m.f. of 105 V and an internal resistance of 1 Ω is connected in parallel with a d.c. generator of e.m.f. 110 V and internal resistance of 0.5 Ω to supply a load having a resistance of 8 Ω. Calculate: (a) the currents in the battery, the generator and the load; (b) the potential difference across the load. 1)b.Two batteries are connected in parallel. The e.m.f. and internal resistance of one battery are 120 V and...
8. A voltmeter with an internal resistance of 100 k22 is used to measure the voltage...
8. A voltmeter with an internal resistance of 100 k22 is used to measure the voltage VAB in the circuit below. What is the voltmeter reading? (Ans: 120 V) AAAA V V V V t A AAAA V V V V 15 k92 12 kg 36 V 18 mA 60 ko V V V V AAAA VAB B Fig. 8
Although an ideal voltmeter has an infinite internal resistance, this theoretical ideal is usually not met...
Although an ideal voltmeter has an infinite internal resistance, this theoretical ideal is usually not met in practice. The voltmeter in the Figure has an internal resistance of 4 x 109 2 and is used to measure the voltage across the resistor R2 as shown. Attaching this non-ideal voltmeter decreases the voltage across R2. Calculate the magnitude of this decrease using an emf of 14 V and R1 = R2 = 250 ks2. Submit Answer This question expects a numeric...
Consider a circuit containing a 24 V battery and a 15 Ω resistor. We want to...
Consider a circuit containing a 24 V battery and a 15 Ω resistor. We want to mesure the current in the circuit with an ammeter of internal resistance 3 mΩ and the voltage drop across the resistor with a voltmeter having an internal resistance of 100 kΩ. a. How should be the ammeter connected (series or parallel)? b. How should be the voltmeter connected (series or parallel)? c. Draw a schematic of the circuit d. Calculate the current across the...
A battery provides a voltage of 8.00 V and has unknown internal resistance Rint. When the...
A battery provides a voltage of 8.00 V and has unknown internal resistance Rint. When the battery is connected across a resistor of resistance R1= 7.00 Ω , the current in the circuit is I1 = 1.00 A. If the external resistance is then changed to R2 = 5.00 Ω , what is the value of the current I2 in the circuit?
In the circuit shown the voltmeter (denoted by V) has an internal resistance of 90 Ω,...
In the circuit shown the voltmeter (denoted by V) has an internal resistance of 90 Ω, the ammeter (denoted by A) has an internal resistance of 1 Ω. The battery with the emf of ℰ = 20V has a negligible resistance. Find the total dissipated power.
The coil of wire in a galvanometer has a resistance of RC = 75.0 Ω. The...
The coil of wire in a galvanometer has a resistance of RC = 75.0 Ω. The galvanometer exhibits a full-scale deflection when the current through it is 0.200 mA. A resistor is connected in series with this combination so as to produce a voltmeter. The voltmeter is to have a full-scale deflection when it measures a potential difference of 14.0 V. What is the resistance of this resistor?
When a battery voltage is measured by placing a high-resistance voltmeter across the terminals of the...
When a battery voltage is measured by placing a high-resistance voltmeter across the terminals of the battery, the voltmeter reads 6.3V. With the voltmeter leads still attached, the battery terminals are then connected to a resistor in series with an ammeter. In this arrangement, the ammeter reads 150 mA, and the voltmeter reads 5.9V. What are the emf and the internal resistance of the battery?
Pre-Lecture Question 11 To answer this question, first click here to view the associated viden A voltmeter has an internal resistance of 10 000 Ω and is used to measure the voltage across a 47.0-Ω resistor that, without the voltmeter connected, has a current of 1.20 A pass through it. How much current is drawn away from the circuit by the voltmeter when it is connected across the resistor? 5.6 mA 1.205 A 4.7 mA 0 A A circuit contains...
8. A voltmeter with an internal resistance of 100 k22 is used to measure the voltage VAB in the circuit below. What is the voltmeter reading? (Ans: 120 V) AAAA V V V V t A AAAA V V V V 15 k92 12 kg 36 V 18 mA 60 ko V V V V AAAA VAB B Fig. 8
Although an ideal voltmeter has an infinite internal resistance, this theoretical ideal is usually not met in practice. The voltmeter in the Figure has an internal resistance of 4 x 109 2 and is used to measure the voltage across the resistor R2 as shown. Attaching this non-ideal voltmeter decreases the voltage across R2. Calculate the magnitude of this decrease using an emf of 14 V and R1 = R2 = 250 ks2. Submit Answer This question expects a numeric...
When a battery voltage is measured by placing a high-resistance voltmeter across the terminals of the battery, the voltmeter reads 6.3V. With the voltmeter leads still attached, the battery terminals are then connected to a resistor in series with an ammeter. In this arrangement, the ammeter reads 150 mA, and the voltmeter reads 5.9V. What are the emf and the internal resistance of the battery?
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