(e) EMF2 is not being charged because the current is flowing through bettery from positive to negative terminal hence the bettery is not being charged.
(f) potential difference between two points is given by ohm's law which is
v=iR
HENCE we can say that the potential difference is
=0.471*2=0.942v
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Consider the circuit shown below. The values of the circuit parameters are R=1 12, R=10 12,...
Look at the circuit below. The values of the circuit parameters
are:
a) Using the circuit above
write the junction rule and loop rule for Kirchhoff’s laws
b) What is the current lag through each leg of the circuit
c) What is the power radiated from each resistor
d) Is battery E2 being charged? Please explain
Ri - = 100 12, R2 = 200 12, R3 = 300 32, R4 = 400 12, E1 120 V, and E2 - 50...
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In the circuit below, for R= 7412, find the equivalent resistance. (in (2) R R a 2R 3R 2R 2R bw Answer: In the circuit below, for R, = 480 S2, R2= 240 12, Rz= 480 N, RA= 240 s, and EMF=212 V. Find the current through R. (in mA). R RS w R2 R4 Answer: In the circuit below, for R = 480 N, R = 240 12, Rz= 480 N, RA= 240 N, and EMF=212 V. Find the...
A four-resistor circuit is shown in the figure. The values of the resistors are as follows: Ri=10 Ohms, Rz=R3=6 Ohms, R4=2 Ohms. What is the equivalent resistance Reg for this circuit? R M R3 R3 R3 > O 0.50 ohms O 2.00 ohms 0 3.33 ohms 0 5.25 ohms o 7.50 ohms Question 8 5 pts The circuit shown in the figure below contains three resistors (R1, R2, and R3) and three batteries (VA. VB, and Vc). The resistor values...
a) Find the voltage and current in each bipole and
resistor shown in the circuit by using Maxwell's
method.
b) Verify the results by applying
Kirchhoff's Laws.
R1 = R3 = R5 =
R7 = R9 = 100 Ω
R2 = R4 = R6 =
R8 = R10 = 200 Ω
E1 = E3 = E5 = 9
V
E2 = E4 = 6 V
Ri www R2 www www R9 R7 www R3 Es R: www Ει EA E2 E3...
in
the circuit below. the emf of the battery e= 14volts, and the
resisto has values r= 192 R2=141 R3=185 R4=198. what is the current
supplied by the battery to this circuit? Answer to the nearest
milliamps (1000 milliamps =1amp)
Post Attendee - Zoom University of Minnesota 22120BEGDO 2 pts Question 1 In the circuit shown below, the emf of the battery E-19 volts, and the resistors have values R1 - 179 2. R2 - 106 12. R3 - 183...
A circuit is constructed with five resistors and one real battery as shown above right. We model. The real battery as an ideal emf V = 12 V in series with an internal resistance r as shown above left. The values for the resistors are: R = R3 = 40 N, R4 = Rs = 80 and R2 = 142 N. The measured voltage across the terminals of the batery is Vbattery = 11.41 V. I R R R R4...
In the circuit shown below, the emf of the battery E=42 volts; the resistors have values R1 = 116 12, R2 = 184 12, and R3 = 139 N; and the capacitor has a capacitance C = 5 UF (microfarads). After the switch has been closed for a long time, what is the current supplied to the circuit by the battery? Answer in milliamps to the nearest milliamp, where 1000 milliamps = 1 amp. S R} E I RA С...
*14. Determine the Thévenin equivalent circuit for the network external to the resistor R in both networks in Fig. 9.132. RI R3 R5 2012 12 12 212 + E 20 V R2 512 R4 1612 R IK
A circuit is constructed with
five resistors and one real battery as shown above right. We model.
The real battery as an ideal emf V = 12 V in series with an
internal resistance r as shown above left. The values for the
resistors are: R1 = R3 = 22 Ω, R4 = R5 = 82 Ω and R2 = 147 Ω. The
measured voltage across the terminals of the batery is Vbattery =
11.6 V.
A circuit is constructed...