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Problem 2: Use voltage division to find the voltage uo across the 25Ω resistor in the...
Problem #1 (5) Use superposition to find the voltage V across the 4 2 resistor with polarity as marked. This problem includes 3 subproblems, Problem#1, Problem#2 and Problem#3. w 222 + 20V 412 5A V due to the voltage source: Problem #2 (5) Use the same circuit diagram in Probl. V due to the current source: Problem #3 (5) Use the same circuit diagram in Probl. Actual V:
(a) Find the current across the resistor.
(b) Find the current across the inductor.
(c) What is the magnitude of the total current?
(d) Find the impedance of the circuit.
(e) What is the phase angle between the current and the
voltage?
Consider the parallel RL circuit shown in Figure 12.11.4 V(t) R &L Figure 12.11.4 Parallel RL circuit The AC voltage source is V(t)Vo, sin ot
Find the current through and the voltage across each resistor in
Fig. 6.
Problem 10. Find the current through and the voltage across each resistor in Fig. 6. R1 152 ww V, 9.0 V R 102 R, 18 R, 35 Q V, 12 V Figure 6: Problem 10: Find the current through and the voltage across each resistor.
1. Use source transformation to find the voltage across the 9.6ko resistor 2. Find the Thevenin equivalent circuit to the left of terminals A-B 3oon soon A M 63V6600 Woo 3. Find the Norton equivalent circuit of the circuit below
Use Current Division and Voltage Division rules to determine the voltage drop in resistor R2 and the current lin resistor R1. R3 302 V1 10 V > R2 120
a)Find the voltage across inductor L1 at t=0^+ (i.e.
just after the switch is opened)
b)Determine the voltage across L1 at time = 5us.
Problem 11: RL Discharging #2 Determine the voltages of a Resistor- Inductor circuit. Switch S1 has been closed for a long time and the Inductor L1 is completely charged. At time t -0s, Switch S1 is opened. R1 S1 R3 R2 L1 Given Variables Name Value Units E1 14 R1 15 kohm R2 kohm R3 17...
Use a method of your choice to find the voltage across resistor R2, given that E = 5.6 V, I-SRC = 5 mA, R1 = 3.3 kOhm, R2 = 7.3 kOhm.
Use a method of your choice to find the voltage across resistor R1, given that E = 8.7 V, 1-SRC = 2.2 mA, R1 = 8.2 kOhm, R2 = 9.1 kOhm. R1 R2 1
For the DC cicuit show below, find the voltage and current across each resistor. The voltage source is 40V. Find the power dissipations in R1 and R3. Click on the circuit to view a larger image 20 , RB 500 2, Rc RA 400 , and Rp 75 - - Current through RA A Voltage drop across RA V Power dissipation in RA W Current through Rg A Voltage drop across R V Current through Rc = A Voltage drop...
Find the voltage across the resistor in the circuit below 2 x
10-4 second after the resistor is connected to the battery:
a. 0.0018 V
b. 0.16 V
c. 8.84 V
d. 9V
Find the voltage across the resistor in the circuit below 2 x 104 second after the resistor is connected to the battery: a. 0.0018 V b. 0.16 V c. 8.84 V d. 9 V 20 2 9V 0.001 H