(6) Analyze the following circuit. Use 3 Significant Figures for all of your calculations and answers. Show your calculations, calculate the following, but write down the answers here also: (a) Calculate Requivalent (see diagram below) of the equivalent resistor to the 3-resistor network. Requivalent = (a) Current I= (b) Voltage across R1 = VR1 %3D (c) Voltage across R2 Vr2 = (d) Voltage across R3 = Vr3 = %3D HINT #1: The Voltage across R2 is equal to the Voltage across R3 .. Because they are in parallel. HINT #2: The Supply Voltage (30.0 Volts)... must be equal to the voltage across R1 + voltage across R2 . Ri = 550 2 Vs = Voltage Supply 30.0 Volts R2 = 630 2 R3 = 470 2 Vs= Calculate Reasivalent Voltage Supply 30.0 Volts

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(6) Analyze the following circuit. Use 3 Significant Figures for all of your calculations and answers. Show your calculations, calculate the following, but write down the answers here also: (a) Calculate Requivalent (see diagram below) of the equivalent resistor to the 3-resistor network. Roquivalent (a) Current I= (b) Voltage across RỊ VRI (c) Voltage across R2 VR2 (d) Voltage across R3 = VR3 = HINT #1: The Voltage across R2 is equal to the Voltage across R3 .. Because they are in parallel. HINT #2: The Supply Voltage (30.0 Volts)... must be equal to the voltage across R1 + voltage across R2 . Ri = 550 2 Vs = Voltage 30.0 Supply Volts R2 = 630 2 R3 = 470 2 + Vs = Voltage Calculate Reauisalent 30.0 Supply Volts ||