Thevenin's theorem. A circuit produces voltage V on open circuit. When it is measured with a...
How do you solve this circuit using Thevenin's theorem to find
Thevenin's impedance and voltage. Given I=15A, Z1 = j7, Z2 = 8 and
dependent voltage source = 5V. Please explain and don't skip over
steps. Find the Thevenin's voltage at Z2. I'm sorry if some
information is missing these are the only things the professor gave
to us. Which is why I'm really confused. Thank you for the
help.
k,V Z2
#1. Use Thevenin's Theorem to find the voltage V, in the circuit below. 3 Ω 2Ω Ο Ο + 50 V 6Ω Σ 0.5υ, & 10 Ω ob
(20 pts) Use Thevenin's theorem to find Vo in the circuit. 6 V 2 k2 2 I Ik() 1 k12 0
(20 pts) Use Thevenin's theorem to find Vo in the circuit. 6 V 2 k2 2 I Ik() 1 k12 0
Review Constan Consider the circuit of the figure (Figure 1). Part A If the voltage across the 30- k2 resistor is measured with a 50-kN2 voltmeter, what does the meter read? Express your answer to two significant figures and include the appropriate units. μΑ. ? V50 kn = Value Units Submit Request Answer Part B If the voltage across the 30-k2 resistor is measured with a 250-k voltmeter, what does the meter read? Express your answer to two significant figures...
Q1. You are given a 12 V DC power supply. You are expected to develop a voltage divider to achieve a voltage of nominal 5V value using a pair of resistors from the E 12 range, with the restrition that you are not expected to draw a current of more than 1 mA from the 12 V DC supply i. Develop a simple circuit showing the possible values for each resistor pair, and the range of the DC output possible...
Part A - Find the open-circuit voltage The circuit you should use to find the open-circuit voltage, Voc, is shown here. Note that the resistor to the right of terminals a and b has been removed to create the open circuit. Using any circuit analysis technique you like, find the open-circuit voltage 25 k22 20 k 2 30 k22 a 100 V 100 k2 18 mA 340 k 2 Voc h Express your answer with the appropriate units. View Available...
Q8. The following data are obtained when open circuit and short circuit tests are performed on a single phase, 50 kVA, 2400/240 Volt 50 HZ distribution transformer. VOLTAGE(volts)CURRENT (amperes) POWER (watts) 213 Measurement in low voltage side with high voltage winding open Measurement on high voltage side with low voltage winding shorted 240 5.97 60 20.8 750 (a) Neglecting the series impedance, determine the exciting admittance referred to the high voltage side. (b) Neglecting the exciting admittance, determine the equivalent...
An ac power supply produces a maximum voltage delta V_max = 100 V. This power supply is connected to a 24.0-ohm resistor, and the current and resistor voltage are measured with an ideal ac ammeter and voltmeter as shown in the sketch below: What does each meter read? An ideal ammeter has zero resistance and an ideal voltmeter has infinite resistance. (70.7 V;2.95 A)
When switch S in the figure is open, the voltmeter V of
the battery reads 3.09 V . When the switch is closed, the voltmeter reading drops
to 2.96 V , and the ammeter A reads 1.66 A . Assume that the two
meters are ideal, so they do not affect the circuit. (Figure 1) -
From that we find that emf E = 3.09 V.Find the internal resistance r of the battery.
When a battery voltage is measured by placing a high-resistance voltmeter across the terminals of the battery, the voltmeter reads 6.3V. With the voltmeter leads still attached, the battery terminals are then connected to a resistor in series with an ammeter. In this arrangement, the ammeter reads 150 mA, and the voltmeter reads 5.9V. What are the emf and the internal resistance of the battery?