Activity 5: By applying Kirchhoff's Voltage Law to a series RL circuit, we obtain the differential equation: di 4t+ 8 i = 1 t >0 at where i(t) = electrical current in Amperes, and t = time in seconds. 5-A) Use the integrating factor technique to find the expression of the current (general solution) 5-B) Use any other analytical technique to find the expression of the current (general solution)

Activity 5: By applying Kirchhoff's Voltage Law to a series RL circuit, we obtain the differential equation: di 4t+ 8 i = 1 t >0 at where i(t) = electrical current in Amperes, and t = time in seconds. 5-A) Use the integrating factor technique to find the expression of the current (general solution) 5-B) Use any other analytical technique to find the expression of the current (general solution)

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Question

Activity 5:
By applying Kirchhoff's Voltage Law to a series RL circuit, we obtain the differential equation:
di
4t+ 8 i = 1
t >0
at
where i(t) = electrical current in Amperes, and t = time in seconds.
5-A) Use the integrating factor technique to find the expression of the current (general solution)
5-B) Use any other analytical technique to find the expression of the current (general solution)

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