figu RA QUESTION 4 RAN R = E figure 4 12, R3 = 62, R4 = 40, and E = 24V, then Assume that on figure 4 above R₁ = 3.62, R2 a. determine the circuit equivalent resistance b. determine the power drawn from the source c. determine the power dissipated on resistor R4 Block 252-LTs 3 and 4 on the 8th September 2024 @ 1400-160 figure 1 Rs QUESTION 2 Assume that E₁ = E₁ = 48V, 1a1 = 4A, 1a2 = 7A, R₁ = 80 and R₂ = 6.0 on figure 2 below and apply the Superposition theorem to: a. determine the current through resistor R₁and b. prove that the energy expended on resistor (R₁) in 5hrs is 0.648MJ QUESTION 3 E2 E1 1 al figure 2 Rz Ⓐaz R1=R5=35 Use Thevenin's theorem to determine current through and power dissipated on resistor R₂, given that R-4.50, R3 = R6 = 602, R2 = 7.750, R4 = 0, R7 = 00, R5 = 3, Rg = 4, 6 = R10 = 22, G, = OS and E = 90V. QUESTION 4 R2=2.52 DRI R Rg ww R1 R₁₂ R10 E R4. R7 R6 figure 3 RA RAN RAN R RN E R== 7 figure 4 Assume that on figure 4 above R₁ = 3.6, R2 = 12, R3 = 6, R4 = 40, and E = 24V, then the circuit equivalent resistance

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figu RA QUESTION 4 RAN R = E figure 4 12, R3 = 62, R4 = 40, and E = 24V, then Assume that on figure 4 above R₁ = 3.62, R2 a. determine the circuit equivalent resistance b. determine the power drawn from the source c. determine the power dissipated on resistor R4 Block 252-LTs 3 and 4 on the 8th September 2024 @ 1400-160

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figure 1 Rs QUESTION 2 Assume that E₁ = E₁ = 48V, 1a1 = 4A, 1a2 = 7A, R₁ = 80 and R₂ = 6.0 on figure 2 below and apply the Superposition theorem to: a. determine the current through resistor R₁and b. prove that the energy expended on resistor (R₁) in 5hrs is 0.648MJ QUESTION 3 E2 E1 1 al figure 2 Rz Ⓐaz R1=R5=35 Use Thevenin's theorem to determine current through and power dissipated on resistor R₂, given that R-4.50, R3 = R6 = 602, R2 = 7.750, R4 = 0, R7 = 00, R5 = 3, Rg = 4, 6 = R10 = 22, G, = OS and E = 90V. QUESTION 4 R2=2.52 DRI R Rg ww R1 R₁₂ R10 E R4. R7 R6 figure 3 RA RAN RAN R RN E R== 7 figure 4 Assume that on figure 4 above R₁ = 3.6, R2 = 12, R3 = 6, R4 = 40, and E = 24V, then the circuit equivalent resistance