1. KVL and Ohm's Law: Find the current, I, and voltages, V₁, V2, V3, V4, Vs and Vab in the following circuit. Vab is the voltage drop across nodes a-b. Note: Ohm's Law always requires that the voltage drop across a resistor is defined with the current entering the positive terminal. In the following circuit, assume that some of the polarities for the voltage variables are arbitrarily defined and therefore the answer for these voltage may have a negative value. 12V + 10 Ω + V₁ + V5 T www 11Ω a + Vab b 15Ω + V2 (1 + HIH 8 V + 5 V - V4 + 892 V3 + M 652

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1. KVL and Ohm's Law: Find the current, I, and voltages, V₁, V2, V3, V4, Vs and Vab in the following circuit. Vab is the voltage drop across nodes a-b. Note: Ohm's Law always requires that the voltage drop across a resistor is defined with the current entering the positive terminal. In the following circuit, assume that some of the polarities for the voltage variables are arbitrarily defined and therefore the answer for these voltage may have a negative value. 5 V 2. 12V + a 10 Ω + V₁ 69 + VS T www 11 Ω 60 a + 6.0 DE Vab b + V2 (1 + wwwwww... W 60 65 15 Ω HIF 8 V Series Resistance: What is the equivalent resistance, Requiv, for thirty 62 resistors connected in series between nodes a-b? CALA 602 60 + - V4 + 60 892 b 60 60 6.0 602 602 3. Parallel Resistance: What is the equivalent resistance, R for thirty 6 resistors connected in parallel between nodes a-b? V3 6Ω + = Requiv W