a) V = \(\frac{2}{7} I_S – \frac{4}{7} V_S\)
b) V = \(\frac{2}{7} V_S + \frac{4}{7} I_S\)
c) V = \(\frac{2}{7} V_S – \frac{4}{7} I_S\)
d) V = \(\frac{2}{7} I_S – \frac{4}{7} V_S\)
In the circuit given below, the value of V in terms of VS and IS using Superposition Theorem is ___________
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In the circuit given below, the value of V in terms of VS and IS using Superposition Theorem is ___________
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