Homework Answers
I don't get the question statement of question 1) can you please make it clear
Question 2 )
Equivalent resistance is greater in series combination than any individual resistor.
Equivalent resistance is less in parallel combination than any individual resistor.
Question 3)
(a)
(b)
C)
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Question One: In the figure below, what is the reading on the ammeter in each case...
You have a 10 ohm resistor connected in series with an ammeter. The voltage applied to...
You have a 10 ohm resistor connected in series with an ammeter. The voltage applied to the whole circuit is 1.2 volts. At the same time you have a voltmeter connected across the 10 ohm resistor and voltmeter reads 0.9 volts. The circuit draws a total of 0.5 amps. Can you determine resistance of the ammeter?
Exercise 2. An instrument used to measure current is called an ammeter. The ammeter is connected...
Exercise 2. An instrument used to measure current is called an ammeter. The ammeter is connected into a circuit in series in the loop in which the desired current reading is required. The resistance of an ideal ammeter is zero, and it is essential in real ammeters that the resistance of the instrument be very small compared to other resistances in the circuit. Why? R2 Ri a)-A meter to measure potential difference is called a voltmeter. To find the potential...
3. The circuit is as shown below. Assuming that the ammeter and voltmeter are ideal, means...
3. The circuit is as shown below. Assuming that the ammeter and voltmeter are ideal, means they don't affect the current in the circuit, so an ideal voltmeter has a very high resistance while an ideal ammeter has a negligible resistance. Voltmeter www 9.0 v 24 (a) What's the ammeter and voltmeter readings with the switch 's' open (0.15 A and 3.6 V (b) What's the ammeter and voltmeter readings with the switch 's' closed? (0.38 A and 9.0V) (e)...
A circuit you're building needs an ammeter that goes from 0 mA to a full-scale reading...
A circuit you're building needs an ammeter that goes from 0 mA to a full-scale reading of 60.0 mA . Unfortunately, the only ammeter in the storeroom goes from 0μA to a full-scale reading of only 500μA. Fortunately, you've just finished a physics class, and you realize that you can make this ammeter work by putting a resistor in parallel with it, as shown in the figure (Figure 1) . You've measured that the resistance of the ammeter is 90.0...
4-Post Lab Questions: Ammeters and Voltmeters 1. Assume that you used your ammeter that you constructed...
4-Post Lab Questions: Ammeters and Voltmeters 1. Assume that you used your ammeter that you constructed to measure the current through a 2 ohm resistor. Draw a diagram of the complete circuit What percentage of the total resistance would be contributed by your ammeter? 2. Assume that you used the voltmeter you constructed to measure the voltage across a 2 ohm resistor. Let the voltage be 5 volts. What percent of the total current flows through the voltmeter? (Loitmeter/1total)*100%. 3....
4) Given the circuit below. The voltage is 5 volts and each resistor is 10 ohms....
4) Given the circuit below. The voltage is 5 volts and each
resistor is 10 ohms. The current flowing through the circuit (when
measured by an ideal ammeter) is 1 amp.
a) Show current through the circuit is 1 A.
Next, assume you put a DMM (in ammeter mode) which has a
resistance of one ohm at point A. Recalculate the equivalent
resistance of the circuit.
b) What is the current flowing through the circuit now.
This is the current...
Consider the circuit shown below. All three batteries are ideal. The voltmeter and ammeter are also...
Consider the circuit shown below. All three batteries are ideal. The voltmeter and ammeter are also ideal. 7.00V 崇弓= 12.0V v) R 5.00 R2 6.00 Ω = 8.00 V A. What is the internal resistance of the batteries? B. What is the internal resistance of the voltmeter? C. what is the internal resistance of the ammeter? D. Based on your answers to questions A-C draw a simpler equivalent circuit (in the space above to the right of the original circuit)...
True or False: 1. Resistors connected in series always have equivalent resistance greater than any individual...
True or False: 1. Resistors connected in series always have equivalent resistance greater than any individual resistor. 2. Resistors connected in parallel have equivalent resistance greater than any individual resistor. 3. Most materials have increased resistance as they heat up. 4. A battery's primary function is to provide charge and power to a circuit. 5. The voltage difference between two points in the same (ideal) wire is ALWAYS 0.
Experiment RESISTANCE IN COMBINATION PURPOSE: To study series, parallel, and series.parallel combinations of resistors. EQUIPMENTThe experiment...
Experiment RESISTANCE IN COMBINATION PURPOSE: To study series, parallel, and series.parallel combinations of resistors. EQUIPMENTThe experiment board and accompanying bundle of connecting wires. PROCEDURE: 1. Resistors in series: Connect the circuit shown in Fig. 1. Using circuit theory (Ohms Law in conjunction with the predicted procedure for combining resistors in series), calculate the expected current in or through the three resistors in series and the expected voltage across each of the three resistors. After the instructor has approved your connections,...
A circuit you’re building needs an ammeter that goes from 0 mA to a full-scale reading...
A circuit you’re building needs an ammeter that goes from 0 mA to a full-scale reading of 50.0 mA. Unfortunately, the only ammeter in the storeroom goes from 0 μA to a full-scale reading of only 500 μA. Fortunately, you can make this ammeter work by putting it in a measuring circuit, as shown in Figure 65 This lets a certain fraction of the current pass through the meter; knowing this value, you can deduce the total current. Assume that...
Exercise 2. An instrument used to measure current is called an ammeter. The ammeter is connected into a circuit in series in the loop in which the desired current reading is required. The resistance of an ideal ammeter is zero, and it is essential in real ammeters that the resistance of the instrument be very small compared to other resistances in the circuit. Why? R2 Ri a)-A meter to measure potential difference is called a voltmeter. To find the potential...
3. The circuit is as shown below. Assuming that the ammeter and voltmeter are ideal, means they don't affect the current in the circuit, so an ideal voltmeter has a very high resistance while an ideal ammeter has a negligible resistance. Voltmeter www 9.0 v 24 (a) What's the ammeter and voltmeter readings with the switch 's' open (0.15 A and 3.6 V (b) What's the ammeter and voltmeter readings with the switch 's' closed? (0.38 A and 9.0V) (e)...
4-Post Lab Questions: Ammeters and Voltmeters 1. Assume that you used your ammeter that you constructed to measure the current through a 2 ohm resistor. Draw a diagram of the complete circuit What percentage of the total resistance would be contributed by your ammeter? 2. Assume that you used the voltmeter you constructed to measure the voltage across a 2 ohm resistor. Let the voltage be 5 volts. What percent of the total current flows through the voltmeter? (Loitmeter/1total)*100%. 3....
4) Given the circuit below. The voltage is 5 volts and each
resistor is 10 ohms. The current flowing through the circuit (when
measured by an ideal ammeter) is 1 amp.
a) Show current through the circuit is 1 A.
Next, assume you put a DMM (in ammeter mode) which has a
resistance of one ohm at point A. Recalculate the equivalent
resistance of the circuit.
b) What is the current flowing through the circuit now.
This is the current...
Consider the circuit shown below. All three batteries are ideal. The voltmeter and ammeter are also ideal. 7.00V 崇弓= 12.0V v) R 5.00 R2 6.00 Ω = 8.00 V A. What is the internal resistance of the batteries? B. What is the internal resistance of the voltmeter? C. what is the internal resistance of the ammeter? D. Based on your answers to questions A-C draw a simpler equivalent circuit (in the space above to the right of the original circuit)...
Experiment RESISTANCE IN COMBINATION PURPOSE: To study series, parallel, and series.parallel combinations of resistors. EQUIPMENTThe experiment board and accompanying bundle of connecting wires. PROCEDURE: 1. Resistors in series: Connect the circuit shown in Fig. 1. Using circuit theory (Ohms Law in conjunction with the predicted procedure for combining resistors in series), calculate the expected current in or through the three resistors in series and the expected voltage across each of the three resistors. After the instructor has approved your connections,...
A circuit you’re building needs an ammeter that goes from 0 mA to a full-scale reading of 50.0 mA. Unfortunately, the only ammeter in the storeroom goes from 0 μA to a full-scale reading of only 500 μA. Fortunately, you can make this ammeter work by putting it in a measuring circuit, as shown in Figure 65 This lets a certain fraction of the current pass through the meter; knowing this value, you can deduce the total current. Assume that...
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