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12 Nov 2019
Consider the circuit diagram shown below. Here  is the external voltage applied to the circuit, C is the capacitance, R is the resistance, and V = V(t) is the time-dependent voltage across the capacitor. Moreover, V is a solution to the differential equation Dv/dt = -1/CR (V-E) Suppose that R = 2 Ohm (ohms), C = 3 F (farads), L = 4 V (volts), and V(0) = 0, and solve this initial value problem in order to express V as function of time t.
Consider the circuit diagram shown below. Here  is the external voltage applied to the circuit, C is the capacitance, R is the resistance, and V = V(t) is the time-dependent voltage across the capacitor. Moreover, V is a solution to the differential equation Dv/dt = -1/CR (V-E) Suppose that R = 2 Ohm (ohms), C = 3 F (farads), L = 4 V (volts), and V(0) = 0, and solve this initial value problem in order to express V as function of time t.
Keith LeannonLv2
6 Oct 2019