Transcribed Image Text:

The circuit shown in the figure below is connected for 3.30 min. (Assume R₁ = 6.90 N, R₂ ww 5.00 € 3.00 Ω 1.00 Ω R₁ + 4.00 V R₂ (a) Determine the current in each branch of the circuit. 2.60, and V = 18.0 V.) branch magnitude (A) 1.7660 left branch -0.6851 middle branch Your response differs from the correct answer by more than 10%. Double check your calculations. The response you submitted has the wrong sign. × direction up X down 1.0809 right branch down X Your response differs from the correct answer by more than 10%. Double check your calculations. (b) Find the energy delivered by each battery. 4.00 V battery! 542.60 If you know the current through a battery, how do you determine the power delivered by the battery? J 18.0 V battery 6.29 KJ (c) Find the energy delivered to each resistor. 6.90 resistor 5.00 resistor 1.00 resistor 3.00 resistor 2.60 resistor 1596.19 If you have found a set of currents using Kirchhoff's Rules, you can use them to check that the potential drop around each loop is indeed zero. J 464.67 You appear to be calculating this correctly using an incorrect value for the current through the 4-V battery. J 92.93 You appear to be calculating this correctly using an incorrect value for the current through the 4-V battery. J 1852.54 If you have found a set of currents using Kirchhoff's Rules, you can use them to check that the potential drop around each loop is indeed zero. J 1605.54 You appear to be calculating this correctly using an incorrect value for the current through the 3.00- resistor. J (e) Find the total amount of energy transformed into internal energy in the resistors. 5.582 You are correct that the total energy transferred to the resistors is the sum of the individual energies transferred to each resistor. k]