CCT. 5 Es = 48V R₁ = I₁= 2.4A = 2052 D O A ww R₁ = 80 19.2V R3 = 30 www 7.2V C B ERA I Ry 2.4A (52) = 12V D 1. Solve for the voltage drops across the resistors ER1 = I₁ R₁ = 2.4A (852) = 19.2V ER2 = 1₂ R₂ = 2.4A (422) = 9,6V = ER3 13 R3 2.4A (322)= 7.2V ww R₂ = 40 9.6V R₁ = 50 www 12V Reference point for metering purposes only 2. Using a voltmeter to test for voltage, determine the following voltage values as seen by the voltmeter Point A to the reference point -7.2V Point B to the reference point Point C to the reference point Point D to the reference point Voltage from point A to point D Voltage from point C to point B Ov 21.6 V 40.8V 48V 21.6V Volts Volts Volts Muest Volts Volts Volts

I'm not sure if I'm doing question two right.

I'm confused as to how reference points affect the voltage and polarity.

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ССТ. 5 Es = 48V R₁ = 2052 I₁ = 2.4A D A ww R₁ = 80 19.2V R3 = 30 ww 7.2V 1. Solve for the voltage drops across the resistors ER1 = I₁ R₁ = 2.4A (852) = 19.2V ER2 = 1₂ R₂ = 2.4A (422) = 9,6V ER3 = I₂ R₂ = 2.4A (322) = 7.2V ER4 = Iy Ry = 2.4A (552) = 12V Point B to the reference point C Point C to the reference point Point D to the reference point Voltage from point A to point D Voltage from point C to point B B m R2 = 4 Ω 9.6V R₁ = 50 ww 12v 2. Using a voltmeter to test for voltage, determine the following voltage values as seen by the voltmeter Point A to the reference point -7.2V Reference point for metering purposes only Ov 21.6 V 40.8V 48V 21.6V Volts Volts Volts Volts metering Volts Volts