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3. Find in for the following circuit. 54 308 ove zva on 320 4. Calculate in...
2. Use source transformation to find i, in the following circuit 3A () 320
e) Find Vand i in the circuit below.. (3 Marks) 692 40 W 320 {30 9x2 1 6+4 itb SA
please solve them all 2) For the circuit shown in Figure 1. Find the following: A. How many independent loops are present in the circuit? B. How many nodes are present in the circuit? C. Write a KVL equation at every independent loop (mesh) in the circuit in terms of the indicated voltage and current variables. D. Write a KCL equation at every node in the circuit. Write those equations using the indicated voltage variables by incorporating Ohm's Law for...
L4' : Find 11,12 and Vi in the following circuit. 4Ω 2Ω 3 A 6Ω 4 6Ω 40 1, 6Ω 2Ω 4Ω An ammeter model consists of an ideal ammeter in series with a 202 resisto m resistor R as shown below. The al 5
Prob. 7: Calculate V. in the circuit shown below. 492 + V. - 3 62 Prob. 8: Find R for the shown circuit. eq 320 320
11. By solving an appropriate linear system, find the loop currents in the following circuit. 201 10v 100+ 3 T 14 В
Question 4 (8%) The potentiometer circuit shown in Fig. 3 is used to measure angular position 0. The capacitor C is used to reduce contact bounce, and the op-amp isolates the potentiometer from long lead wires and recording instrument resistance loading. The potentiometer being used rotate 320 degrees has a resistance Rp 4.0k2, and is capable of dissipating 0.02W of power in most environments. The circuit is to have a minimum sensitivity of 10.0mV/degree when 100m of AWG28 copper lead...
Question 1 25 pts Series Parallel Circuit R=200 10V Rz=300 Ry=500 R=200 1. Calculate the total resistance of the circuit 2. Calculate the current delivered by the battery 3. 3. Find the voltage drop across R4 4. Calculate Power dissipated in 20 ohm resistor
Smar On M (2) Find the o ut put voltage vo for the following circuit: Excha 100 kΩ 20 k2 10V ( 0 Smar On M (2) Find the o ut put voltage vo for the following circuit: Excha 100 kΩ 20 k2 10V ( 0
find response of the parallel RLC circuit on Figure 3. Sketch iL(t) for tE( 0, 50us) initial voltage on the capacitor Vo = 10v. initial current in the inductor is 100mA. current source is 100mA. (Please order all steps so I know how to approach a problem like this) Find response of the Parallel RLC circuit on Figure 3. Sketch iz(t) fort € (0, 50uS) Initial Voltage on the capacitor Vo=10V Initial curent in the inductor is 100mA Current Source...