Constants The batteries shown in the circuit in the figure have zero internal resistances and emf...
Part 0 A battery with emf € and internal resistance r is first connected to a resistor of resistance R1 = R, where R is greater than r. This resistor is then disconnected from the battery and replaced with a resistor of resistance R2 = 2R. Find the ratio of the current with the second resistor to the current with the first resistor. Express your answer in terms of R and r. IVO AEO ? 12 11 Submit Request Answer...
The batteries shown in the circuit in the figure (Figure 1) have negligibly small internal resistances Part A Find the current through the 30.0 22 resistor. Express your answer with the appropriate units. ? 130.00 Value Units Submit Request Answer Part B Find the current through the 20.082 resistor. Express your answer with the appropriate units. JA ? 120.00 - Value Units Figure < 1 of 1 Submit Request Answer Part C 30.0 12 Find the current through the 10.0...
Problem 19.50 11 of 16 Constants Part A The batteries shown in the circuit in (Figure 1) have negligibly small internal resistances. Assume that 13.0 V and R 21.0 Find the current through the 30.0 Ω resistor. Express your answer in amperes to three significant fig ures. Submit Part B Find the current through the 21.0 Ω resistor. Figure Express your answer in amperes to three significant figures. 1 of 1 +30.0 2 5.00 V Submit Request Answer Problem 19.50...
Review The figure(Figure 1) shows a zero resistance rod sliding to the right on two zero-resistance rails separated by the distance L = 0.515 m. The rails are connected by a 13.522 resistor, and the entire system is in a uniform magnetic field with a magnitude of 0.822 T Part A Find the force that must be exerted on the rod to maintain a constant current of 0.149 A in the resistor Figure 1 of 1 19 | A20 ?...
Problem 23.38 Part A The figure(Figure 1) shows a zero-resistance rod sliding to the night on two zero-resistance rails separated by the distance L 0.359 m. The rails are connected by a 116 resistor, and the entire system is in a uniform magnetic field with a magnitude of 0.733 T Find the force that must be exerted on the rod to maintain a constant current of 0 164 A in the resistor | ΑΣΦ και ? mN Submit Request Answer...
In the circuit in the figure below, the batteries have negligible internal resistance. (Take R1 = 2.15 Ω, R2 = 4.35 Ω, and R3= 7.00 Ω.) (a) Find the magnitude of the current in each resistor. I2.15Ω = A I4.35Ω = A I7.00Ω = A (b) Find the magnitude of the potential difference between points a and b. V (c) Find the power supplied by each battery. left battery W right battery W 12.0 V R3 12.0 V
For the circuit shown in (Figure 1), assume that E = 19.0 V and RR = 6.30 Ω. Find the emf E1 in the circuit. Find the emf E2 in the circuit. For the circuit shown in (Figure 1), assume that E = 19.0 V and R = 6.30 12. Part A Find the emf Ej in the circuit. Express your answer in volts to three significant figures. OVO ADV * 0 2 ? Figure < 1 of 1 >...
The batteries shown in the circuit in the figure have negligibly small internal resistances. a) Find the current through the 30.0 resistor. b) Find the current through the 20.0 resistor. c) Find the current through the 10.0 battery. I found the answers for part a and b to be 0.333A and 0.250A but I don't understand how to solve for part c. please help me
The batteries shown in the circuit in (Figure 1) have negligibly small internal resistances. Assume that E = 9.00 V and R = 21.9 Ω . A) Find the current through the 30.0 Ω resistor. B) Find the current through the 21.9 Ω resistor. C) Find the current through the 9.00 V battery. 30.0 5.00 V
The emf in the figure below is 4.50 V. The resistances are R1 = 25.5 Ω, R2 = 27.5 Ω, and R3 following 38.5 Ω. Find the Ri R2 R3 (a) the current in each resistor (Give your answers to at least three significant figures.) (b) the power consumed by each resistor P2= (c) the power supplied by the emf device