3. A non-ideal battery with an emf of 5.00 V and internal resistance of 20.0 is connected to a 330 resistor. At what rate will the 330 resistor dissipate energy?
3. A non-ideal battery with an emf of 5.00 V and internal resistance of 20.0 ...
12. A non-ideal battery with an emf of 5.00 V and internal resistance of 20.0 is connected to a 330 resistor. What current will flow through the 330 resistor?
1. An ideal battery with an emf of 5.00 V is connected to a 330 resistor. At what rate will the resistor dissipate energy?
A non-ideal battery has an emf of 11.78 V and an internal resistance of 6.89 Ohms. The battery is connected to an unknown external resistance, R. If the terminal voltage is measured to be 2.82 V lower than the emf, what is the value of R?
Problem 3 a) A battery with an emf of 6.00 V has an internal resistance r. When connected to a resistor R, the terminal voltage is 5.90 V and the current is 0.110 A What is the value of the external resistor R? Submit Answer Tries 0/6 b) What is the internal resistance r of the battery? Submit Answer Tries O/6 c) What is the energy dissipated in the battery's internal resistance in 3.00 minutes? Submit AnswerTries 0/6 Due in...
A battery with an emf of 12.00 V has an internal resistance r. When connected to a resistor R, the terminal voltage is 11.70 V and the current is 0.20 A.A) What is the value of the external resistor R?B) What is the internal resistance r of the battery?C) What is the energy dissipated in the battery's internal resistance in 3.7 minutes?D) When a second identical battery is added in series and the external resistor is R = 28 Ohms...
A battery with an emf of 3.00 V has an internal resistance r. When connected to a resistor R, the terminal voltage is 2.90 V and the current is 0.16 A. 1. What is the value of the external resistor R? 2. What is the internal resistance r of the battery? 3. What is the energy dissipated in the battery's internal resistance in 1.6 minutes? 4. When a second identical battery is added in series and the external resistor is...
A battery with an emf of 12.00 V has an internal resistance r. When connected to a resistor R, the terminal voltage is 11.70 V and the current is 0.120 A. The value of the external resistor is 97.5 ohms and the value of the internal resistor is 2.50 ohms. What is the energy dissipated in the battery's internal resistance in 4.20 minutes?
A 9 V non-ideal battery has an internal resistance of 8.0 Ω. For what external resistance, R, connected to the battery will the power dissipated in the internal resistance be 18% of the power dissipated in the external resistance?
A battery has an emf of 12.0 V and an internal resistance of 0.210 Q. Its terminals are connected to a load resistance of 3.00 . Circuit diagram of a source of emf (in this case, a battery), of internal resistance r, connected to an external resistor of resistance R. for ning R (a) Find the current in the circuit and the terminal voltage of the battery. SOLUTION Conceptualize Study the figure, which shows a circuit consistent with the problem...
An ideal voltmeter V is connected to a 2.0 O resistor and a battery with emf 5.0 V and internal resistance 0.5 O as shown in the figure on the right. (a) What is the current in the 2.0 O resistor? (b) What is the terminal voltage of the battery? (c) What is the reading on the voltmeter? Explain your answers.