9. (a) Apply the loop rule to loop abcdelka in the figure (b) Apply the loop...
I have to solve this problem using Kirkhoff's Loop Rule and
Junction rule and I keep getting the wrong answers for the
currents. Thank you for your help.
Find the currents flowing in the circuit in the figure below. (Assume the resistances are R1-20 Ω, R2 = 6 Ω, R,-15 Ω, R4 = 10 Ω, r1-0.75 n, r2 = o.25 n, ra = o.25 Ω. and 40.50 12 = Ro R2 12 V E118 V 24 V
Apply the loop rule to loop abcdefghija in the figure below. E, = 24.0 v Vid Home 0.10 2 5.0 2 E2 = 48.0 V 3202 12 0.50 22 40 12 >0.2012 78 9 V T13. E, = 6.0 V E4 = 36.0 V I i 0.05 12 h 0 -(13R2) + Ez – (1313) – (1zR5) – (1312) – E4 – (1373) + E4 – (13R 4) = 0 O -(I4R1) + E1 - (14/1) – (14R5) – (1314)...
Find Both Loops
Deaning ktore hape Meer By Car Inse Den Find the currents (in A) flowing in the circuit in the figure. (Indicate the direction with the sign of your answer. Due to the nature of this pro calculations-including answers submitted in WebAssign.) E - 24.0V mo 0.100 R 5.00 2 = 480 V ş R 160 A 바 ! e 0.50 0 320 30201 Junchon a Ein- & Tout Iz= I, + Iz -I, - Iz + I3...
21.38 Kirchhoff's Rules Find the currents flowing in the circuit in the figure below. Use the direction of the currents as shown in the figure. Explicitly show how you follow the steps in the Problem-Solving Strategies for Series and Parallel Resistors. (Hint: For resistors in series, you may want to add the resistances since they have a common current.) 0.10 Ω 3 2 E256 V 18Ω R2 0.50 Ω 44 Ω 0.20 2 Ra 762 24-34 V E3-4.0 V i...
A) Apply Kirchoff's Junction rule to the point E in the given
circuit
B) Apply Kirchoff's loop rule to loop EBCDE.
C) Apply Kirchoff's loop rule to loop FABEF
Find the currents (in A) flowing in the circuit in the figure. (Indicate the direction with the sign of your answer. Due to the nature of this problem, do not use rounded intermediate values in your calculations-including answers submitted in WebAssign.) E = 24.0 V b 0.102 R 5.0 52 E2 = 48.0 V RS 1912 R2 12 a e 12 0.50 22 48 12 0.2012 R 90 Ω E = 36.0 V Ez = 6.0 V 13 g E:...
Find the currents (in A) flowing in the circuit in the figure. (Indicate the direction with the sign of your answer. Due to the nature of this problem, do not use rounded intermediate values in your calculations, including answers submitted in WebAssign.) E, = 24.0 V b w 0.102 RS R 5.02 E, = 48.0 V 17 R e 1 0.502 462 >0.2002 R 822 E4 = 36.0 V Eg = 6.0V 13 i 0.05 2 h A A 12...
QUESTION 18 In the circuit represented in the figure below, 1,-1.00 A. Use Kirchhoff's loop rule and junction rule to calculate the currents I, and la. 7.000 w 18.0 V 14 w 4.00 4.00 V R w 1,= 3.14 A 12 - 2.14 A 1, -2.00 A 12 -1.00 A 1, = 3.14 A 17 - 4.14 A 1. = 2.00 A 12 -3.00 A
Find the currents flowing in the circuit in the figure below. Use the direction of the currents as shown in the figure. Explicitly show how you follow the steps in the Problem-Solving Strategies for Series and Parallel Resistors. (Hint: For resistors in series, you may want to add the resistances since they have a common current.) E, 28 V 0.10 ? R1 712 Rs 20 2 256 V R2 0.50 ? 42 ? 0.20 ? E434 V i 0.05 ?...
In the circuit shown in the figure. R1 = 15,00 Ohm, R2 = 10.0 Ohm, R3 = 5.0 Ohm, V emf,1 = 15.0 V. and Vemf,2 = 10.0 V. Using Kirchhoff's Loop and Junction Rules, determine the currents i1, i2, and i3 flowing through R1, R2, and R3, respectively, in the direction indicated in the figure.