(c) Calculate Vo in the circuit of Figure 3 using voltage divider rule. 10Ω + 9...
In the voltage-divider circuit shown in the figure, the no-load value of vo is 5 V When the load resistance RI is attached across the terminals a and b, vo drops to 3 V.(Figure 1) PartA Find RL Express your answer with the appropriate units RI-7.28 Submit Previous Answers Request Answer Incorrect, Try Again: One attempt remaining Provide Feedback igure 1 of 1 40Ω 20 V R2 vo
Problem 1. Perform the following for the circuit below using the node voltage method: 10Ω 10Ω 5i a) Calculate ia b) Calculate v c) Calculate Psource,5ia Problem 2. Perform the following for the circuit below using the node voltage method: 10Ω 1 4Ω 2 60V+ 30A V. 3 2Ω 5Ω 3 a) Calculate vi, v2 and vs b) Calculate Psource 30A c) Calculate Psource,Gov node voltage method Problem 3. Perform the following for the circuit below using the 10V 4Ω...
2. Voltage divider for a group of resistors Ri Figure 2 The voltage divider circuit For the circuit shown above, derive the espression for the output voltage V, as a function of the input voltage and the resistances (V, Ri,and R2)
Question 3: a) Calculate the no-load voltage v, for the voltage divider circuit shown. b) Calculate the power dissipated in R and R2 c) Assume that only 0.5 W resistors are available. The no-load voltage is to be the same as in R, 31.7K! (a).Specify the smallest ohmic values of RII and R2 160 V R. 23.3k!!
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
4. Using the Voltage divider method, solve for Vo. W- 16 V 602
0 40 V The no-load voltage across R2 in the voltage-divider circuit shown is shown is vo.no_load 8 V The smallest load resistor that is ever connected to the divider is RL,smallest 3.6 k Ω (kilo Ohm) When the voltage divider is loaded by RLsmallest, VO is not to drop below 7.5 V A) Assume the power ratings of commercially available resistors are 1/16, 1/8, 1/4, 1, and 2 W What power rating would you specify? PR1,rating Watt PR2.rating =...
as small as you can Problem 3 (20 points) For the current divider circuit in Figure 3, calculate: a) lo and V. (10 points). b) The power dissipated in the 10 A resistor. (5 points). c) The power developed by the current source. (5 points). R3 200 VO Vo SR1 R5 3100 SA 10] 3300 3100 R2 N 200 Figure 3
Using the circuit of Figure 2, calculate the output voltage Vo) using five different input voltages (Vm) between 0 and 15V. Record your answers in Table Calculate the proportionality constant (k) that relates the output voltage to the input voltage as follows, k=-out Vin 10 kΩ 10kg2 10 k2 10 kΩ
1. Using the superposition theorem, calculate the voltage Vo for the circuit below 16 Ω 100 mA 40Ω 12 V