1. Consider the following diagram: 20 volts 5 volts 10 volts 352 ww 202 ww www 402 502. 192 192 652 www www 252 ww www ΤΩ 352 • Kirchhoff's Law states that current going into any junction must equal the total current leaving. For the given diagram, write down this law in terms of I1, I₂ I3 and 14. • Kirchhoff's second law states that the voltage additions must equal the total voltage drops (that is, the effect of the resistor) around any closed loop in a circuit. Use the equation V = IR to write down this law for the given circuit. You will have several equations. Use row-reduction to solve this linear system.

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1. Consider the following diagram: 20 volts 5 volts 10 volts 302 ww 292 552 ww 402 ww 4₁ 12. 13 6.02 ww 14 202 192 www ww 192 352 • Kirchhoff's Law states that current going into any junction must equal the total current leaving. For the given diagram, write down this law in terms of I₁, I2 I3 and 14. • Kirchhoff's second law states that the voltage additions must equal the total voltage drops (that is, the effect of the resistor) around any closed loop in a circuit. Use the equation V = IR to write down this law for the given circuit. You will have several equations. Use row-reduction to solve this linear system.