please, only use KCL, KVL, ohm's law, and/or nodal analysis.
3-3: Use KVL/KCL and Ohm's Law as needed to find the values of v1 and v2. You must show separate KCL and KVL equations, no credit will be given if other methods such as nodal analysis are used. 80 80 Ω υ,Σ 120 Ω V140 6 A
Is1 15 mA R. 1ΚΩ In the circuit shown, use KCL, KVL, and Ohm's Law to find the two resistor currents R1 R2 K. S2 25 V 0.5 kΩ 5 mA iR2 1R2 =
em V 5 A 4Ω Using KVL, KCL, and Ohm's Law, Determine Vx and ix. 60 v(+
use nodal analysis , kvl\ kcl
All of the operational amplifiers are ideal. Determine the values of Vx and Vout. To receive full credit, you must show all intermediate steps/equations required to analyze the circuit. 2 kΩ 3 kΩ ΛΑ, ΛΑ. VOUT 32.5 kΩ S10 kΩ 10 kΩ ξ5 kg 10 kΩ
4. Find in the circuit below if V = 4/0° VAMS- Note: use KVL, KCL, and Ohm's Law to solve. {0.52 WM 5. Determine the average power and complex power supplied by the source, V , in problem 4.
PLEASE do NOT answer using mesh analysis. Just follow the
questions steps and use KCL and KVL. This question specifically
wants no mesh analysis.
Determine the magnitude and polarity of the voltage across the 50 ohm resistor, using Kirchoff's Voltage Law and Kirchoffs Current Law. 3. 20 Ω 10Ω W エト 2 50 Ω 20 V 40 V 30 40n
Please use nodal analysis only
and show all work
Find Vo in the circuit in the figure using nodal analysis. 8 mA Vo-
P20. (a) Use KCL and KVL to solve for Ii, b and la, assuming that the current is flowing in the directions indicated by the current arrows in the circuit diagram below, and then (b) re-sketch the circuit with the correct current directions based on your KCL/KVL analysis. Assume that the circuit has reached equilibrium and that the capacitor is fully charged. (c) re-work the problem if the 8 V power supply is replaced with a 6 V power supply...
In the circuit shown below, Use KCL and KVL only, a) Calculate the unknown voltage V, and the unknown current lo. b) Determine the power supplied by the 100 V source. 152 w 202 322 + V. 22 1Ω3 LO 100v
a) The value of Ix= 3A, use KCL to determine the values of IA and IB. b) Use KVL or knowledge of voltage across parallel elements to determine the voltage across Ra. Then use Ohm's Law to determine the value of RA. c) Use KVL to determine the value of the independent voltage source, Vx. d) Fill out a power table and determine the value of the power absorbed by each element. e) Add the absorbed powers and verify that...