Note: The currents are not necessarily in the direction shown. Use the following variables as necessary:...
Note: The currents are not necessarily in the direction shown. Use the following variables as necessary: Vị : 22.0 V, 2-її0 . and R : 0.0 n. 28.0 n 12.0 Ω (a) In the figure above find the current in each resistor. I1 Your response differs from the correct answer by more than 100%. A I3 (b) Find the power delivered to each resistor. R1
Consider the following figure. Note: The currents are not necessarily in the direction shown. (Assume R1 = 31.0 Ω, R2 = 2.5 Ω, and V = 39 V.) A rectangular circuit begins at a battery on the bottom side labeled V with its positive terminal to the left of its negative terminal and extends leftward through resistor R2 with current I2 moving leftward. The circuit continues upward and then to the right on the top side where it splits into...
Consider the following figure. Note: The currents are not necessarily in the direction shown. Assume R1-35.011, R2-3.5 Ω, and V-45 . 24 Ω Rg (a) Find the current in each resistor of the figure above by using the rules for resistors in series and parallel 3.5 Ω 35.0 Ω 24 Ω (b) Write three independent equations for the three currents using Kirchoffs laws: one with the node rule; a second using the loop rule through the battery, the 3.5-2 resistor,...
22.012, Consider the following figure. Note: The currents are not necessarily in the direction shown. (Assume R1 R2 = 5.5 12, and V = 39 V.) R1 2412 124 + R2 1, (a) Find the current in each resistor of the figure above by using the rules for resistors in series and parallel. 5.5.12 Your response differs from the correct answer by more than 100%. A 22.022 A 24 Ω A (b) Write three independent equations for the three currents...
Given the Circuit below: V1 R1 200 Ω 200 V R2 500 Ω R3 400 Ω V2 R4 300 Ω 400 V Calculate the Currents (Ii, I2, I5, 14) through each resistor
A circuit is constructed with six resistors and two batteries as shown The battery voltages are V1=18 V and V2=12 V. The positive terminals are indicated with a + sign, The values for the resistors are: R1=R5=66 Ω, R2=R6=83 Ω R3=55 Ω, and R4=69 Ω. The positive directions for the currents I1, I2 and I3 are indicated by the directions of the arrows.1) What is V4, the magnitude of the voltage across the resistor R4? 2) What is I3, the current...
2 IV22 (3 points) R. In the circuit shown above, note the directions given for the conventional currents as well as for the polarity of the batteries. Use the following numerical values What is I1 What is I2? What is I? What is the power dissipated in R1? What is the power dissipated in R2? What is the power dissipated in R3? What is the power delivered by V? What is the power delivered by ½? A. W. W. W.
Consider the following circuit with two ideal batteries and
three resistors. Note that the current directions have been chosen
for you
(a) Find i1, i2, and i3. Are the assumed current directions
correct? (12pt)
(b) Find the power dissipated in each resistor. (3pt)
(c) Find the power delivered to or by each battery and indicate
“delivered to” or “delivered by” for each. Which battery (if any)
is being charged? (3pt) (d) Find the total power dissipated and the
total power...
please solve in details. i will rate you up !
Problem 3 In the circuit shown below: a. Write a node equation at node 1 by summing the currents leaving node 1. b. Write a node equation at node 2 by summing the currents leaving node 2. c. Find V, and V2 by solving the two node equations. d. Find the currents IR, IR, IR3, IR4, Is. e. Find the power absorbed by R1, R2, R3, R4, and power released...