Η 1ο Ε = 6.0ν 4. Determine the each of the currents in each path, and...
Please show each step of the problem so I can understand Η 1ο Ε = 6.0ν 4. Determine the each of the currents in each path, and the voltages across each resistor. Ε, = 24.0ν b d 0.10Ω R RS 5.0Ω E = 48.0ν 20 Ω Γ2 k R2 a 15 0.50 Ω 40 Ω 0.20 Ω R3 78 Ω Ε. = 36.0ν Γ3 g Η e Έ 10.05 Ω h
C 13 , = 6.0V 4. Determine the each of the currents in each path, and the voltages across each resistor. Ε 24.0V b d 0.10 Ω R RS 5.0Ω Ε, = 48.0V 20 Ω k Γ2 a ΜΑ 15 0.50 Ω 40 Ω *0.20 Ω R 78 Ω Ε4 = - 36.0V Γs g R2 ΕΤΑ e 10.05 Ω h
please show which equations were used for each step 4. Determine the each of the currents in each path, and the voltages across each resistor. E, = 24.0 V b d 241 0.10 12 R 5.0 22 RS 2012 E2 = = 48.0 V k 12 11, R2 a e 12 0.50 2 40 S2 0.20 S2 R 78 Ω 13 E3 = 6.0 V EA = 36.0 V 13 g him i 0.052 h
- + A Read aloud 4. Determine the each of the currents in each path, and the voltages across each resistor. 'E, = 24.0 V wo 0.10.2 R 5.0.2 R. 2022 TA E2 = 48.0 V k 0.500 R w e 40 12 20.20 -0.2012 78 E, 6.0V 36.0V i 0.05 h CourseBanner ng
3. Determine the equivalent resistance of the circuit. Then determine the current in each path, and the voltage across each resistor. Then determine the power dissipated by each resistor and the total power dissipated by the circuit 10.02 W 4.000 w 5.000 w 2.000 3.000 w 8,00 V 4. Determine the each of the currents in each path, and the voltages across each resistor. E = 24.0 V 0.1002 R 5.0 22 RS 2022 E2 = 48.0 V RE 17,...
1000 11. Determine the equivalent resistance of the circuit. Then determine the current in each path, and the voltage across each resistor. Then determine the power dissipated by each resistor and the total power dissipated by the circuit. Assume the voltage of the source is 110V. 120.02 W R, R. 60.22 w R R, 60312 R, 602 4012 w R, R, 8012 두 R. w 1001 12. Determine the cach of the currents in each path, and the voltages across...
Instructions: Show all work. Question 1: Determine the currents, 41, i2, and is and the voltages across each of the resistors in the circuit below. The resistor values are R1 = 303, R2 = 15012, and R3 = 100N. W 9V R2 R3 iz is
In the figure, ε = 119 V, R1 = 10.7 Ω, R2 = 23.8 Ω, R3 = 26.2 Ω, and L = 2.70H. Immediately after switch S is closed, what are (a) i1 and (b) i2? (Let currents in the indicated directions have positive values and currents in the opposite directions have negative values.) A long time later, what are (c) i1 and (d) i2? The switch is then reopened. Just then, what are (e) i1 and (f) i2? A...
Solve this circuit using node-voltage method. Determine the currents through all the elements and voltages across all elements. Verify that the total power developed equals the total power absorbed Without repeating the node-voltage analysis, predict the node voltages at nodes d, c, b and g, if node a was selected as the reference node (or ground). R2 560 n R, 1 kn R 430 Vs a ww R 820 n ww R3 2.2 kn V6R430 R, 1.5 k Rs 820...
Circuit with Two Batteries and Six Resistors 1 2 3 4 5 6 A circuit is constructed with six resistors and two batteries as shown. The battery voltages are V1 18 V and V2 12 V. The I,I I, R positive terminals are indicated witha+ R Sp. R5 sign, The values for the resistors are: R1 = Rs 74 Ω, R2-R6-86 Ω R3-103 Ω, and ,a. VI R4 135 Q. The positive directions for the R4 currents l1, 12 and...