an ideal battery has an emf of 12v. if it is connected to a circuit and creates a current of 4.0 A, what is the power? please explain.
The power supplied by the battery is,
$$ \begin{aligned} P &=I V \\ &=(4.0 \mathrm{~A})(12 \mathrm{~V}) \\ &=\mathbf{4 8} \mathbf{~ W} \end{aligned} $$
an ideal battery has an emf of 12v. if it is connected to a circuit and...
Four resistors are connected in a circuit with a battery of unknown emf, as shown below. The battery is ideal, so it has no internal resistance. The current in the 30 Ohm resistor is 120 milliamps. Note that you should be able to do this problem without a calculator. (a) Calculate the current in the 60 Ohm resistor. (b) Calculate the current in the 80 Ohm resistor. (c) Calculate the power dissipated in the 20 Ohm resistor. (d) Calculate the...
The ideal battery (emf, LaTeX: \varepsilon ε ) in the circuit shown has a terminal voltage of 12 V. The ideal ammeter reads 0.25 A. Assuming ideal wires with no resistance, what is the resistance of the resistor, R ? 3.0 LaTeX: \Omega Ω 48 LaTeX: \Omega Ω 4.0 LaTeX: \Omega Ω 12 LaTeX: \Omega what is the average power dissipated by the resistor in the previous question? 4.0 w 4.8W 3.0W 12W
PROBLEM 3: The circuit below consists of an ideal battery, with an EMF of E, connected to six resistors. Each resistor is related to one another via the equation Rw 7 (a) What is the battery current? Express your answer in terms of the following variables: R1, and/or AV. (b) What is the voltage drop for R1? Express your answer in terms of the following variables: R1, and/or AV. c) What is the current through R,? Express your answer in...
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.
Two resistors are connected in parallel across an ideal 12.0 V battery. Resistor A has a value of 28 Ω and resistor B carries a current of 0.2505 A. What is the total power dissipated in the circuit?Two resistors are connected in parallel across an ideal 12.0 V battery. Resistor A has a value of 28 Ω and resistor B carries a current of 0.2505 A. What is the total power dissipated in the circuit?
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 battery has an emf of 12.0 V and an internal resistance of 0.050 0. Its terminals are connected to a load resistance of 3.00 V. (A) Find the current in the circuit and the terminal voltage of the battery(B) Calculate the power delivered to the load resistor, the power delivered to the internal resistance of the battery, and the power delivered by the battery
A 12V battery is connected to the capacitor circuit shown What is the total capacitance? What is the charge on 4 mu F capacitors? First simplify the diagram
The circuit above consists of an ideal battery, with a voltage V, connected to six identical resistors (each of resistance R). (a) What is the current through the battery? Express your answer in terms of the following variables: R, and/or V. (b) What is the voltage drop for R_1? Express your answer in terms of the following variables: R, and/or V. (c) What is the power dissipated by R_1? Express your answer in terms of the following variables: R_5 and/or...
Three resistors are connected in the circuit shown below. The emf of the battery is 12.0 V and the resistors have the following values: R_1 = cR, and R_2 = R/c, where R = 29.0 Ohm and c is a positive number between 0 and infinity. R_3 is an unknown constant value. As the value of c approaches zero, the current through the battery approaches 0.200 A. What is the resistance of R_3? What does the value of the current...