Homework Answers
For the given circuit, a) Find I using Zeg method. b) Use current divider rule to...
For the given circuit, a) Find I using Zeg method. b) Use current divider rule to find 12 and 13 from 11. c) Using the results from part (b), prove KCL to be correct for the node shown by the dashed boundary. d) Using the value of 11, find V2 by applying phasor Ohm's Law on 80N resistor. e) Find V3 from Vand V2 using KVL. 80 12 + V - L + 600/0° V (+v 8 j80 12 V...
1. Use the voltage divider equation to determine V 12 V 20A 2. Use the current...
1. Use the voltage divider equation to determine V 12 V 20A 2. Use the current divider equation to determine l1 I, 30x 3. Use Nodal analysis to determine V.. lov (+ 4. Use mesh analysis to determine the current through the voltage source. SA IA
Problem 1: Use nodal analysis in the circuit below to find Va and V. Assume R1...
Problem 1: Use nodal analysis in the circuit below to find Va and V. Assume R1 10 , R2 = 4 2, R3 = 6 2, R4 6 2, I1 2 A, Vi 2 V, and V2 4 V R2 Vi R4 R3 V2+ Vi -WW ww
3-6: Use nodal analysis to find the values of i1, i2, and iz: 1 kΩ 10...
3-6: Use nodal analysis to find the values of i1, i2, and iz: 1 kΩ 10 mA 5 kΩ 11 30v) 1 ξ 500 Ω ξ4 ΚΩ (Ε) 80 V
ANSWER ALL PLEASE Question 20 2 pts In the Figure below, V1 = 14 V, V2...
ANSWER ALL PLEASE
Question 20 2 pts In the Figure below, V1 = 14 V, V2 = 8 V, V3 = 10 V, R1 = 2.00, R2 = 4.0, and R3 = 2.00 Find the electric currents is, iz, and is. (Hint: use the junction a and the two loops). RI R 14 M4 Equations: Kirchoff's Junction (node) rule: 11 = 12 + iz Kirchoff's Loop rule (left loop): V1 - iRi - iz R2 + V2 = 0 Kirchoffs...
Use Nodal Analysis Exercise 3.7 Find V1, V2, and V3 in the circuit shown in Figure...
Use Nodal Analysis
Exercise 3.7 Find V1, V2, and V3 in the circuit shown in Figure 3.20. FIGURE 3.20 The circuit for EXERCISE 3.7. 3 k12 R2 3 k2 Is 4 mA R3 15k12 Z RA 9k12 3 R5 6 k12 Answer: Vi = 15 V, V2 = 9V, V3 = 12 V.
Exercise #4 Voltage Divider A. Introduction In a previous exercise, you learned about the current-voltage relationship...
Exercise #4 Voltage Divider A. Introduction In a previous exercise, you learned about the current-voltage relationship in a single resistor. Now, you will about how voltage is divided across two resistors in series. In this exercise you will: Examine the operation of the electric circuit known as the voltape divicder At the conclusion of this exercise you should be able to Compute the valtage across a resistor in a voltage divider circuit Design a voltage divider circuit to produce a...
I will upvote! (2)()dz in the vector space Cº|0, 1] to find the orthogonal projection of...
I will upvote!
(2)()dz in the vector space Cº|0, 1] to find the orthogonal projection of f(a) – 332 – 1 onto the subspaco V (1 point) Use the inner product < 1.9 > spanned by g(x) - and h(x) - 1 proj) (1 point) Find the orthogonal projection of -1 -5 V = 9 -11 onto the subspace V of R4 spanned by -4 -2 -4 -5 X1 = and X2 == 1 -28 -4 0 -32276/5641 -2789775641 projv...
a. Use the Chain Rule to find the indicated partial derivatives. z = x4 + x2y, x...
a. Use the Chain Rule to find the indicated partial derivatives. z = x4 + x2y, x = s + 2t − u, y = stu2; ∂z ∂s ∂z ∂t ∂z ∂u when s = 1, t = 2, u = 3 b. Use the Chain Rule to find the indicated partial derivatives. w = xy + yz + zx, x = r cos(θ), y = r sin(θ), z = rθ; ∂w ∂r ∂w ∂θ when r = 8, θ = pi/2 c. Use the...
Staa a· First, guess the answer to three places. "( b. Then, use a calculator to find the answer ...
#2 would help a lot thank you
Staa a· First, guess the answer to three places. "( b. Then, use a calculator to find the answer to three places. For the circuit on the right, find: a. The equivalent resistance seen by 2. 60 2 120 2 b. The voltage at Point A assuming that WM c. The voltage at the point between the d. The current in the 70 0hm resistor. the voltage source. the potential at B is...
For the given circuit, a) Find I using Zeg method. b) Use current divider rule to find 12 and 13 from 11. c) Using the results from part (b), prove KCL to be correct for the node shown by the dashed boundary. d) Using the value of 11, find V2 by applying phasor Ohm's Law on 80N resistor. e) Find V3 from Vand V2 using KVL. 80 12 + V - L + 600/0° V (+v 8 j80 12 V...
1. Use the voltage divider equation to determine V 12 V 20A 2. Use the current divider equation to determine l1 I, 30x 3. Use Nodal analysis to determine V.. lov (+ 4. Use mesh analysis to determine the current through the voltage source. SA IA
Problem 1: Use nodal analysis in the circuit below to find Va and V. Assume R1 10 , R2 = 4 2, R3 = 6 2, R4 6 2, I1 2 A, Vi 2 V, and V2 4 V R2 Vi R4 R3 V2+ Vi -WW ww
3-6: Use nodal analysis to find the values of i1, i2, and iz: 1 kΩ 10 mA 5 kΩ 11 30v) 1 ξ 500 Ω ξ4 ΚΩ (Ε) 80 V
ANSWER ALL PLEASE
Question 20 2 pts In the Figure below, V1 = 14 V, V2 = 8 V, V3 = 10 V, R1 = 2.00, R2 = 4.0, and R3 = 2.00 Find the electric currents is, iz, and is. (Hint: use the junction a and the two loops). RI R 14 M4 Equations: Kirchoff's Junction (node) rule: 11 = 12 + iz Kirchoff's Loop rule (left loop): V1 - iRi - iz R2 + V2 = 0 Kirchoffs...
Use Nodal Analysis
Exercise 3.7 Find V1, V2, and V3 in the circuit shown in Figure 3.20. FIGURE 3.20 The circuit for EXERCISE 3.7. 3 k12 R2 3 k2 Is 4 mA R3 15k12 Z RA 9k12 3 R5 6 k12 Answer: Vi = 15 V, V2 = 9V, V3 = 12 V.
Exercise #4 Voltage Divider A. Introduction In a previous exercise, you learned about the current-voltage relationship in a single resistor. Now, you will about how voltage is divided across two resistors in series. In this exercise you will: Examine the operation of the electric circuit known as the voltape divicder At the conclusion of this exercise you should be able to Compute the valtage across a resistor in a voltage divider circuit Design a voltage divider circuit to produce a...
I will upvote!
(2)()dz in the vector space Cº|0, 1] to find the orthogonal projection of f(a) – 332 – 1 onto the subspaco V (1 point) Use the inner product < 1.9 > spanned by g(x) - and h(x) - 1 proj) (1 point) Find the orthogonal projection of -1 -5 V = 9 -11 onto the subspace V of R4 spanned by -4 -2 -4 -5 X1 = and X2 == 1 -28 -4 0 -32276/5641 -2789775641 projv...
#2 would help a lot thank you
Staa a· First, guess the answer to three places. "( b. Then, use a calculator to find the answer to three places. For the circuit on the right, find: a. The equivalent resistance seen by 2. 60 2 120 2 b. The voltage at Point A assuming that WM c. The voltage at the point between the d. The current in the 70 0hm resistor. the voltage source. the potential at B is...
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