12. Given: VT 20 V Xi-300 Ω R-350 Ω Find LT 0(supply voltage and current) ETEC12 Test 3 P 5 12. Given: VT 20 V Xi-300 Ω R-350 Ω Find LT 0(supply voltage and current) ETEC12 Test 3 P 5
from the is v supply and (5) Find the current the Voltage drop drawn across the 1202 and sor rences 10.2 focad sworks 302 ISV 456 SO. EK 103 702 12.0.2 CAS A . $ 4 % 5 7 8 9 1 0 Anitha E R т o P р s D F G H 'J K L C V B Z M V. . V * command option
120 Problem 1, Use the node-voltage method to find the steady state expression for v () in the circuit shown. The sinusoidal sources are v,-35cos 50 t V'and i 20 sin 50 1 A 20 Ω 0 Problem 2 120) Use the mesh-current method to find the steady state expression for velt) in the circuit shown. Answer must be in time domain. Below excitation voltage v is given in time domain v(t) 0.75 V,<t 2 Ω ) 5osin(40140°) Problem 3...
Find v(t) for the given circuit, where R-8 Ω and VS-155 sin (3) V. Please report your answer so the magnitude is positive and all angles are in the range of negative 180 degrees to positive 180 degrees. 2Ω 12 The value of voltage v(t) sin(3t+ V.
Find the node voltage of V1, V2 and V3 P 2.53 Suppose R, = 18 Ω, R2-5 Ω, R3 = 20 Ω, (Figure 1) Figure 1 of 1 Ri R2 R3 01 R4 6 02
Find the current in the 12-Ω resistor in the figure below. (Assume R1 = R3 = 5.0 Ω, R2 = R4 = 8.2 Ω, ΔV = 20 V.) (A) Please answer the question correctly! Thank you so much in advance! Safari File Edit View History Bookmarks Window Help 令 44% D E® Mon 3:24:15 PM 10. -10 points sercp11 18.3.p.015.nva My Notes Ask Your Teacher Find the current in the 12-Ω resistor in the figure below. (Assume R,-R 5.0 Ω,...
B Resistors in Parallel 12 Terminal Voltage V. (V) Current/, (A) Equiv. Resistance R. (12) Notes: 1. Prior to energizing circuit : Record the setting for each resistor. 2. Set up and energize each circuit shown below and record V, 1, 3. Measure and record V-V3, V, and/, -13,/p (see diagrams). 4. Calculate values in highlighted boxes based on measured values. 5. Copy and paste results of simulated circuits in the Multisim folder Current (A) Theoretical Voltage (V) Measured %...
Procedure Table 1 Voltage Generated, v Voltage across R, VR (V) Current IR, (A) 1 V 0.194 0.021 2 V 0.393 0.041 3 V 0.593 0.061 4 V 0.794 0.081 5 V 0.995 0.101 Average 0.593 0.061 Procedure 2 Setup Procedure Procedure 2 Setup Procedure Table 2 Voltage Generated, v Voltage across R, VRC (V) Voltage across C, Vc (V) 1V 0.161 0.526 2 V 0.322 1.052 3 V 0.489 1.586 4 V 0.651 2.109 5 V 0.816 2.647 Average...
In the circuit given below, R=300. V= 20 V, and 2 = 1/6 H. R 1 VC 10 Ω 2u(t) A SL V eBook & Resources eBook 82. Finding Initial and Final Values Calculate di (OʻYdt, dvc(0*)/dt, and dv (o'ydt. The value of di_(0*yat is Als The value of dvc(o'ydt is V/s. The value of dVR(O'ydt is Vis
can you solve this 5 problem please Q2. Using voltage divider and/or current divider to find the unknown on each of the circuits: 40 V -) ) ξR, υ ξR, 6 Ω 20 Ωξυ, 2.4A 1) 1890 Ω ξ10Ω 10 Ω ξ5 kΩ 360 kΩ 45 VI + υ, ξ 20 kΩ ξ90 ΚΩ Q3. Using a Y to delta transformation find the currents il, i2, and i3. And the power delivered by the source. 56 Ω 44Ω 80 Ω...
solve the two problems P3- In the circuit below, Vs 20 V. find the current in R. (Steps: find: 1a using current division then 14 using current division) 330 2 56012 3302 560 12 P4- In the circuit below, find vi and v2 using voltage division and/or current division. 90Ω 60Ω 150 Ω 75 Ω 10 V 40Ω