Find the current i_L (0^+) b) Find the current i_L (infinity) c) Find the equivalent resistance, R_eq, the inductor “sees” after the switch is opened. d) Find i_L (t) for t greaterthanorequalto 0. First Order RL Circuit Solution i_L (t) = i_L (infinity) + (i_L (0^+) – i_L (infinity)) e^-t/tau, tau = L/R_eq

media%2F951%2F9512986d a6b4 467a 96f1 90244d6b4d1d%2FphpIC8ly8 - Find the current i_L (0^+) b) Find the current i_L (infinity) c) Find the equivalent resistance, R_eq, the inductor "sees" after the switch is opened. d) Find i_L (t) for t greaterthanorequalto 0. First Order RL Circuit Solution i_L (t) = i_L (infinity) + (i_L (0^+) - i_L (infinity)) e^-t/tau, tau = L/R_eq

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images - Find the current i_L (0^+) b) Find the current i_L (infinity) c) Find the equivalent resistance, R_eq, the inductor "sees" after the switch is opened. d) Find i_L (t) for t greaterthanorequalto 0. First Order RL Circuit Solution i_L (t) = i_L (infinity) + (i_L (0^+) - i_L (infinity)) e^-t/tau, tau = L/R_eq

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