R₁ = 19 ε = 12V b C ww R₂ = 29 ww d R₂ = 30 e g f Use Kirchhoff's Law to solve for the current, voltage, and power dissipated in each resistor. h 1. Draw this circuit and assign current direction. 2. Write an equation based on loop cefdc. 3. Write an equation based on loop adfgha. 4. Write an equation based on junction b. 5. Write the a matrix equation based on the equations you have written. 6. Use the matrix calculator to solve for the current. Take a screenshot https://www.desmos.com/matrix 7. Using the current values, solve for the voltages across each resistor. 8. The power dissipated across each resistor i is given by P; = I;V;. Calculate the power dissipated in each resistor. 9. Solve the current analytically.

College Physics
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ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
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a
R₁ = 12
ε = 12V
R₂ = 20
ww
d R₂ = 30
b
e
g
f
Use Kirchhoff's Law to solve for the
current, voltage, and power dissipated
in each resistor.
h
1. Draw this circuit and assign current direction.
2. Write an equation based on loop cefdc.
3. Write an equation based on loop adfgha.
4. Write an equation based on junction b.
5. Write the a matrix equation based on the
equations you have written.
6. Use the matrix calculator to solve for the
current. Take a screenshot
https://www.desmos.com/matrix
7. Using the current values, solve for the
voltages across each resistor.
8. The power dissipated across each
resistor i is given by P; = I;V;. Calculate
the power dissipated in each resistor.
9. Solve the current analytically.
Transcribed Image Text:a R₁ = 12 ε = 12V R₂ = 20 ww d R₂ = 30 b e g f Use Kirchhoff's Law to solve for the current, voltage, and power dissipated in each resistor. h 1. Draw this circuit and assign current direction. 2. Write an equation based on loop cefdc. 3. Write an equation based on loop adfgha. 4. Write an equation based on junction b. 5. Write the a matrix equation based on the equations you have written. 6. Use the matrix calculator to solve for the current. Take a screenshot https://www.desmos.com/matrix 7. Using the current values, solve for the voltages across each resistor. 8. The power dissipated across each resistor i is given by P; = I;V;. Calculate the power dissipated in each resistor. 9. Solve the current analytically.
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