Find the northon equvalent circuit for A and B
Find the northon equvalent current on A and B
Find the northon equvalent circuit for A and B Find the northon equvalent current on A...
Find the Thevenin equivalent with respect to the terminals a,b
for the circuit(Figure
1) if v = 320V , i = 11A .
Find the equvalent voltage. Find the equivalent resistance.
Find the Thevenin equivalent with respect to the terminals a,b for the circuit(Figure 1) if v = 320V , i = 11A . Find the equvalent voltage. Find the equivalent resistance.
Find the Thevenin and Norton equivalent circuit at terminals a-b for the circuit shown below, where R = 10 . Please report your answer so the magnitude is positive and all angles are in the range of negative 180 degrees to positive 180 degrees. 1422 R -j2 22 2/0° A ob 1) ZN = Zth = IN Vth A 1) v
Find the Thevenin and Norton equivalent circuit at terminals a-b for the circuit shown below, where R = 13 12. Please report your answer so the magnitude is positive and all angles are in the range of negative 180 degrees to positive 180 degrees. j42 R mo юа -j2 Ω 2/0° A -ob Zn = = Zth IN = 1) D A 1) v Vth =
Observe the circuit presented below. In this circuit appears a motor whose current is 1A and the motor works at a voltage of 12. The voltage of the source (VF) is 12V. Transistor Q1 is a 2N3904. The values of the resistors will be: R1 - 100 kQ, R2 2 kQ, R3 10 kQ. When VIN 0v Find: a) VGS b) ID c) VDS d) VL R2 10 RiN R,
Observe the circuit presented below. In this circuit appears a...
(12points) For the circuit below find the value of Ric that will bias the current through the resistor to 1mA and Find the value o F.A. mode with Vbeon-IV and beta-100 2. e ou 5V Sv 5V Rtc RZo Vo 21 1K 1K
2. The current i, in the circuit is 1 A a. Find b. Find the power dissipated in each resistor Verify that the total power dissipated in the circuit equals the power delivered by the 150 V source C. 500 402 100 150V 250 + 650
Find current in each branch of the circuit given below.
5. Find current in each branch of the circuit given below. 7.00 V 5.00 V 1.0022 3.00 2 w b 2.00 2
1. Use the step-by-step method on the circuit below to find the
inductor current for all time.
2. Given the two complex numbers:
a) Express both numbers in rectangular, exponential, and phasor
forms;
b) Find the sum, the difference, the product, and the quotient
of the numbers.
3. Given the three sinusoids:
a) Find their corresponding phasors using a cosine
reference;
b) Does x(t) lead or lag y(t), and by how much?
2 ΚΩ t = 0 4 ΚΩ +...
For the BJT circuit shown below, assume that the current gain is B = 100 and the forward voltage V,= 0.7 V. (1) Please find is, ic, ie, VBE and VCE (2) Decide the operation mode of this BJT. 4V B 40k W
Q2A) In the single current source circuit shown in the below fig., find the voltage Vx. Interchange the current and voltage Vx. Is the Reciprocity theorem verified? [6 Mark] 5190°A 3502 3202 350g -j2 12 - Vx 1