For the circuit below, perform a Thevenin equivalent analysis. a) Determine the Thevenin equivalent resistance R_TH...
I'm in hurry please In the electric circuit in the figure below, epsilon_1 = 9.0 V, epsilon_2 = 6.0V, R_1 = 12.0 ohm, R_2 = R_3 = 3.0 ohm Calculate the current going through resistor R_2 before the switch is closed. What is the direction of this current? Calculate the current through each resistor after the switch is closed. What is the direction of each current?
In the circuit shown below, what is the rate at which energy is dissipated in (a) R_1, (b) R_2, and (c) R_3? What is the power of (d) battery 1 and (e) battery 2? Put epsilon_1 = 3.0 V, epsilon_2 = 1.0 V, R_1 = 5.0 ohm, and R_2 = 2.0 ohm, R_3 = 4.0 ohm, both batteries are ideal.
For the DC circuit shown below, what is the equivalent resistance of the network? What is the current in each resistor? Put R_1 = 100 Ohm, R_2 = R_3 = 50 Ohm, R_4 = 75 Ohm, and epsilon = 6.0 V; assume the battery is ideal.
Chapter 27, Problem 21. Find the current through each resistor in the circuit shown in Figure 27.P10 Find the potential difference between points A and H. Which point is at the higher potential? Use these values: epsilon_i - 12.0 V, epsilon_2 = 8.00 V. R_1 = 4.00 k Ohm, R_2 = 4.00 k Ohm, R_3 = 2.00 k Ohm
The emfs and resistances in the circuit shown on the right have the following values: epsilon_1 = 5[V], epsilon_2 = 3[V], R_1 = 2[Ohm], R_2 = 1[Ohm] and R_3 = 5[Ohm]. What is the current i in the circuit and is the current in this circuit clockwise or counterclockwise? Explain, why the current direction makes sense! Write down all equations, you need to solve the problem: Document your calculation steps: Current (absolute value): [i] = _____ [A]. The direction of...
The parallel circuit at the right depicts three resistors connected to a voltage source. The voltage source is a 110-V source and the resistor values are R_1 = 15.4 Ohm. R_2 = 21.9 Ohm, and R_3 = 11.7 Ohm. Determine the equivalent resistance of the circuit. 5.10 Ohm 5.20 Ohm 0.196 Ohm
3. For the circuit shown below in Figure 3, perform Thevenin Equivalent circuit analysis. Vse 100, R1=40, R2=40, and R3=40 a. Find the Thevenin Resistance b. Find the Thevenin Voltage c. Show the Equivalent Circuit d. Find the maximum power transfer to the load WY 0- Figure 3
A Thevenin equivalent can also be determined from measurements made at the pair of terminals of interest. Assume the following measurements were made at the terminals a,b in the circuit in the figure. When a 20 Ohm resistor is connected to terminals a,b the voltage Vab is measured and found to be 150 V. When a 50 Ohm resistor is connected to the terminals a,b the voltage is measired and found to be 186 V. Part A) Find the equivalent...
In the circuit in the figure below, the batteries have negligible internal resistance. (Take R_1 = 2.40 Ohm, R_2 = 4.35 Ohm, and R_3 = 5.80 Ohm. Find the magnitude of the current in each resistor. Find the magnitude of the potential difference between points a and b. Find the power supplied by each battery. left battery right battery
Consider the resistor network shown in the figure below, where R_1 = 1Ohm and R_2 = 8 Ohm. Find the equivalent resistance between points a and b in Figure 26-51. Ohm If the potential drop between a and b is 12 V, find the current in each resistor. I_12 Ohm A I_16 Ohm (upper branch) A I_8 Ohm A I_1 Ohm A i_6 Ohm (lower branch) A