Using Kirchhoff's rules, find the following. (&₁ = 70.2 V, &2 = 61.4 V, and 83 78.6 V.)=4.00 ΚΩ==b=EsaIR32.00 ΚΩ(a) the current in each resistor shown in the figure aboveXIRIApply Kirchhoff's rules to write a set of simultaneous equations that can be solved for the current in each part of the circuit. mAXR₂R₁E₂R3f3.00 ΚΩdE₂3R2 Apply Kirchhoff's rules to write a set of simultaneous equations that can be solved for the current in each part of the circuit. mAXApply Kirchhoff's rules to write a set of simultaneous equations that can be solved for the current in each part of the circuit. mA

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Using Kirchhoff's rules, find the following. (&₁ = 70.2 V, &2 = 61.4 V, and 3 = 78.6 V.) 4.00 ΚΩ b a 2.00 ΕΩ R₁ C E₂ R3 R₂ 3.00 ΚΩ d E₂ (a) the current in each resistor shown in the figure above X IR1 Apply Kirchhoff's rules to write a set of simultaneous equations that can be solved for the current in each part of the circuit. mA X IR2 Apply Kirchhoff's rules to write a set of simultaneous equations that can be solved for the current in each part of the circuit. mA X IR3 Apply Kirchhoff's rules to write a set of simultaneous equations that can be solved for the current in each part of the circuit. mA

Using Kirchhoff's rules, find the following. (&₁ = 70.2 V, &2 = 61.4 V, and 3 = 78.6 V.) 4.00 ΚΩ b a 2.00 ΕΩ R₁ C E₂ R3 R₂ 3.00 ΚΩ d E₂ (a) the current in each resistor shown in the figure above X IR1 Apply Kirchhoff's rules to write a set of simultaneous equations that can be solved for the current in each part of the circuit. mA X IR2 Apply Kirchhoff's rules to write a set of simultaneous equations that can be solved for the current in each part of the circuit. mA X IR3 Apply Kirchhoff's rules to write a set of simultaneous equations that can be solved for the current in each part of the circuit. mA