11) For the circuit of Figure 3, the parameters are: I,=2A, L = 5mH, C = 5 mF, R, = 1092, R₁ = 1.81 2, and R₂ = 0.2 2. After the switch has been in its initial position for a long time, at 1 = 0 it moves instantaneously to the left as shown in Figure 3. What is the initial value of the time derivative of the capacitor voltage in the circuit, dv(0*)/dt? R₁ ell dv(0)-7500 V/s dt dv(0*) dt =0 dv(0*) dt dv(0*) d) -2200 V/s dt e) None of the above 1,200 V/s 1=0 C R₂: Figure 3 R₂ a) v(t)=es (7.5 cos 45t+17 sin 60t) (V) b) v(t)=e-255 (cos60t-17 sin 60t) (V) v(t)=110.4e-18-90.4e-22 (V) d) v(t)=75.2e-22-55.2e-18 (V) e) None of the above ww Is 12) For the circuit of Figure 3, identify the correct general expression for the voltage, v(t), for 120.

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11) 12) For the circuit of Figure 3, the parameters are: I,=2A, L = 5mH, C = 5 mF, R₂ = 1092, R₁ = 1.81 2, and R₂ = 0.2 2. After the switch has been in its initial position for a long time, at 1 = 0 it moves instantaneously to the left as shown in Figure 3. What is the initial value of the time derivative of the capacitor voltage in the circuit, dv(0*)/dt? R₁ a) 14. dv(0*) dt ell dv(0)-7500 V/s dt dv(0*)=0 dt -= 1,200 V/s dv(0*) d) =-2200 V/s dt e) None of the above 1=0 Ⓒv(t)=110.4e-18-90.4e-22 d) v(t)=75.2e-221-55.2e-18 e) None of the above R₂3 Figure 3 a) v(t)=e5¹ (7.5 cos 45t+17 sin 60t) (V) b) v(t)=e-255t (cos60t-17 sin 60t) (V) (V) For the circuit of Figure 3, identify the correct general expression for the voltage, v(t), for 120. (1) R₂ Is