Problem 3: R2 = 10 4 R2 = 10 For the circuit shown in the figure,...
What is the equivalent resistance in the circuit shown in the figure? R = 10 12 w V R2 2012 R, = 2012 R4 = 302 800 350 550 500
1. (20 pts.). In the circuit shown in the diagram R 10 m,Ra 0.02 , R 01 , Rs -30 mt Rs 40 min. Rs 50 min. R7 60 min, and ε 100 V. A) (10 pts.) find the equivalent resistance for this circuit; B) (5 pts.) find the voltage and the current for the resistor R C) (5 pts.) find the electric power in the resistor Rr. 2. (20 pts.). In the cir rcuit shown in the diagram, find...
= 30 m2, 1. (20 pts.). In the circuit shown in the diagram Rj = 10 m2, R2 = 0.02 , R3 = 0.01 , R Rs = 40 ml, R = 50 m2, Ry = 60 mA, and < = 100 V. A) (10 pts.) find the equivalent resistance for this circuit; B) (5 pts.) find the voltage and the current for the resistor Ri C) (5 pts.) find the electric power in the resistor R. R R2 R...
Prelab#4 1) For the circuit shown in Figure 3 and Figure 4, calculate: 1- The unknown voltages and currents shown. 2-The equivalent resistance seen by Vs. 7V, R2 2300, R3= 392, R«=5602, R6= 100n, R7= 33002, Rs= 15052 R7 Vs R7 2 R2 Re R6 Reg Figure. 4: Series-parallel eircuit II Figure. 3: Series-parallel circuit I
Problem #4 In the voltage-divider circuit shown in Figure, the no-load value of y, is 4 V. When the load resistance R, is attached across the terminals a and b, v, drops to 3V. Find R 40.2 w 20 V 20v & R2 vo {RL
In the circuit shown in figure 2.0 below, R1 = 30, R2 = 40 and R3 = 20. The battery voltage is 3v. V bat R. R, R3 Figure 2.0 a. Find the equivalent resistance of the circuit. b. What is the current produced by the battery? C. What is the current through each resistor?
10. For the circuit shown below, Ri=1002, R2=20 (2, R3=20 Q, R4=30 . What is the equivalent resistance in the circuit shown in the figure? Find the current and potential across R4 and R2 when an 18 V battery is connected to this circuit. (10 points) R10 - 100 Rea 10+10+30 R = 102 R- 2003 R;=200 I am 30n R = 30 V =IR Reg = 502 I =ř Inlotions I.
Figure 4. (a) The equivalent resistance of the network shown in figure 4(A) is 2KΩ. (True, False) b) The equivalent resistance of the network shown in figure 4(B) is 27/17Ω [Hint see figure 4(B) and] (B) 1 ΚΩ 1 ΚΩ 1 ΚΩ - R2 w c 1.00 + 3100 im IR 3.00 7 Figure 4: 4. (a) The equivalent resistance of the network shown in figure 4(A) is 2K12 (True, False) (b) The equivalent resistance of the network shown in...
a. What is the equivalent resistance in the circuit shown in the figure? b. If V = 10 V, what is the total current supplied by the battery to the circuit? c. What is the voltage between points A and B in the circuit? (Hint: Find the equivalent resistance between points A and B and then use Ohm’s law i. What is the equivalent resistance in the circuit shown in the figure? ii. If V = 10 V, what is...
P4.10 For the circuit shown in Figure 4.14, use the same values as in Problem 4.9. With the switch closed, what is the a) current through the switch and b) equivalent resistance of the network. P4.9 For the circuit shown in Figure 4.14, R,= 102, Rz=522, Rz=812, R = 52, R = 10 , and the voltage across the network is 24 V. With the switch open, determine the a) equivalent resistance of the network, b) direction and magnitude of...