In the circuit below, for R= 7412, find the equivalent resistance. (in (2) R R a...
In the circuit below, for R = 480 N, R = 240 2, Rz= 480 12, RA= 240 12, and EMF=212 V. Find the current through R. (in mA). R R: 누 R2 RA Answer: In the circuit below, for R = 480 12, R2 = 240 N, Rz= 480 N, R4= 240 N, and EMF=212 V. Find the power dissipated in Rz. (in mW). R RS M R2 Answer: A current of 9.0 A passes through a resistance R,...
In the circuit below, for R= 228 Ω, find the equivalent resistance. (in Ω) R R a M N 2R 3R 2R 2R w b w Answer:
Find the total resistance, voltage, current and power in the circuits below. R.-loor Psy SR - 2001 Rz=500r I=0,150A ZR, =loor 3R₂=2oor BONUS: Find the total resistance in the circuit below Ra-loor Ri=loor R3-500 Rs=2oon Ry-loor Rz=20052 Re-soon
Consider the circuit shown below. The values of the circuit parameters are R=1 12, R=10 12, Rz=212, R =5 12, EMF,=12 V, and EMF2=5 V. (a) Determine the current in resistor R,. 0.851 A (b) Determine the current in resistor R. 0.851 A (c) Determine the current in resistor Rz. 1.322 A (d) Determine the current in resistor R,. 0.471 A (e) Is the battery EMF, being charged? Explain. No. (f) What is the potential difference between the two junction...
Consider the circuit shown in the figure. Take R-R, R2-2R and R3-R. Find the magnitude of the current passing through the resistor Rz in terms of VR Express your answer using one decimal place V 3V R: 4V R2 RS
2. (20 pts.). In the cireuit showa in the diagram, find the resistance R, current through it and the unknown emf €2. I lere r-30 V, ea-100 V, R2·5f1, R, R_ 4 Ω, R = 1 n, the current through R2 reads 12 = 5 A and the current through Rs is 1s5 A corresspondly
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...
11 13 a lb Problem 2- The resistors in the circuit below have value R1 = 10.012, Rz = 5.00 N, and R4 = 15.0 N while the resistance R, is unknown. The two batteries are ideal, one providing emf &, = 12.0 V while the emf of the other battery is unknown. Two of the currents are known, specifically 11 = 0.528 A and I2 = 0.336 A. 12 E R4 RA R2 SR Ez a) Write down a...
3. Equivalent Resistance (20 pts) 222-152C The resistors in the figure have the following R1 . values o Ritz 25.0 Ω o R2-45.0 Ω o R3 15.0 Ω R4-35.0 Ω Rs. 10.0 Ω R6- 55.0 2 R2 Ra The emf device shown supplies 20 V to the circuit. (a) Find the equivalent resistance of this circuit. (b) Find the current and direction of current flow through R3. (c) Find the potential difference, Vab, across points a and b. Solution: ....
mim R, " R (b) (3 marks) Calculate the equivalent resistance between the terminals of the voltage source symbolically, and evaluate the answer with the following values: Ri= 10k, R2 = 82, R3 = 5k1, RA = 7k22, Rs = 2k2, Ro = 8k, and Ry = 8k. (c) (3 marks) Short circuit Rs, and calculate the equivalent resistance.