A battery with ε = 6.00 V and no internal resistance supplies current to the circuit shown in Figure P27.9. When the double-throw switch S is open as shown in the figure, the current in the battery is 1.00 mA. When the switch is closed in position a, the current in the battery is 1.20 mA. When the switch is closed in position b, the current in the battery is 2.00 mA. Find the resistances (a) R1, (b) R2, and (c) R3.
Figure P27.9 Problems 9 and 10.
(a)
Answer to Problem 28.11P
Explanation of Solution
Given information: Emf across the battery is
Explanation:
When the switch S is open, then the three resistors
Formula to calculate the equivalent resistance across the circuit, when the switch S is open.
Here,
As the total emf across the battery is equal to the voltage across the battery.
Here,
Substitute
Formula to calculate the equivalent resistance across the circuit, when the switch S is open.
Here,
Substitute
Substitute
When the switch is closed in position
From equation (2), formula to calculate the equivalent resistance across the circuit, when the switch is closed in position
Here,
Formula to calculate the resistance when the resistors are connected in parallel.
From equation (3), formula to calculate the equivalent resistance across the circuit, when the switch is closed in position
Substitute
Substitute
Substitute
When the switch is closed in position
From equation (2), formula to calculate the equivalent resistance across the circuit, when the switch is closed in position
Here,
From equation (3), formula to calculate the equivalent resistance across the circuit, when the switch is closed in position
Substitute
Substitute
Subtract equation (14) from (5) to find
Thus, the value of the resistance
Subtract equation (14) from (10) to find
Substitute
Thus, the value of the resistance
Substitute
Thus, the value of the resistance
Conclusion:
Therefore, the value of the resistance
(b)
Answer to Problem 28.11P
Explanation of Solution
Given information: Emf across the battery is
Explanation:
From part (a) equation (17), the value of resistance
Thus, the value of the resistance
Conclusion:
Therefore, the value of the resistance
(c)
Answer to Problem 28.11P
Explanation of Solution
Given information: Emf across the battery is
Explanation:
From part (a) equation (15), the value of resistance
Thus, the value of the resistance
Conclusion:
Therefore, the value of the resistance
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Chapter 28 Solutions
Physics for Scientists and Engineers (AP Edition)
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