For a Series RL circuit is described by the following differential equation: di Ri(t) + L * = V dt R = 50 (Ohm) and L = 10 (Henry) and the constant voltage V = 100 (Volt) applied at t = 0 by closing of a switch, find the current at t = 0.5 second.
For a Series RL circuit is described by the following differential equation: di Ri(t) + L * = V dt R = 50 (Ohm) and L = 10 (Henry) and the constant voltage V = 100 (Volt) applied at t = 0 by closing of a switch, find the current at t = 0.5 second.
For a Series RL circuit is described by the following differential equation: di Ri(t) + L * = V dt R = 50 (Ohm) and L = 10 (Henry) and the constant voltage V = 100 (Volt) applied at t = 0 by closing of a switch, find the current at t = 0.5 second.
Is it possible to solve this by making it linear and using integrating factor?
Thank you for your time.
With differentiation, one of the major concepts of calculus. Integration involves the calculation of an integral, which is useful to find many quantities such as areas, volumes, and displacement.
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