Don't use Laplace method
Don't use Laplace method
Don't use Laplace method
Don't use Laplace method
Don't use Laplace method
vi) Find the solution of the differential equation, t), fort20.
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Don't use Laplace method Don't use Laplace method Don't use Laplace method Don't use Laplace meth...
do not use s domain method ,use only differential equation 3. In the circuit shown, switch 1 has been closed for a long time before it is opened at t 0, and switch 2 has been opened for a long time b...
do not use s domain method ,use only differential equation
3. In the circuit shown, switch 1 has been closed for a long time before it is opened at t 0, and switch 2 has been opened for a long time before it is closed at t = 0. SW2 sw, 0.5Ω R2 1(2 A, 20 A i(t) 0.5 H a. Find the initial voltage v(O)- Vo across the capacitor and initial current through the inductor (0) lo at t...
Find Vc(t) for t≥0 with the laplace method. Before t=0, the circuit is in steady state. At t=0 the switch sw1 is closed and the switch sw2 moves from a to b.
Find Vc(t) for t≥0 with the laplace method. Before t=0, the circuit is in steady state. At t=0 the switch sw1 is closed and the switch sw2 moves from a to b.
Consider the circuit depicted in Fig. 2. The switch SW1 has been closed for a long time before it...
Consider the circuit depicted in Fig. 2. The switch SW1 has been closed for a long time before it is opened at time t = 0. The switch SW2 has been open for a long time before it is closed att = 0.1 (sec). i) Find the initial current I(0) flowing in the inductor and the initial voltage V(0) across the capacitor. ii) Find the voltage V(t) across the capacitor and the current I(t) through the inductor for 0 ≤ t ≤...
SW1 t=0 6uF Given the capacitor circuit, assume SW1 has been closed and SW2 open for...
SW1 t=0 6uF Given the capacitor circuit, assume SW1 has been closed and SW2 open for a long time. The capacitors C1, C2, C3 are fully charged and C4 is completely uncharged. | 04 4uF C3 3.6uF J C2 - 10 V Auf At t=0, SW1 is opened and sw2 is closed. SW2 For t<0 6. Find the equivalent capacitance between terminals A and B fort<0 7. Find the energy stored in the equivalent capacitor before for t<0 8. Find...
if possible i does not want to use the Laplace transform method 1. The switch in...
if possible i does not want to use the Laplace transform
method
1. The switch in the circuit of Figure 1 has been closed for a long time but is opened at t = 0. Determine i(t) for t> 0. i(t) 212 mo 12 V t=0 F V + Figure 1
problem 7 Problem-4 [10 Points] Find the Laplace transforms of the functions in Figure. 2 Figure....
problem 7
Problem-4 [10 Points] Find the Laplace transforms of the functions in Figure. 2 Figure. 2: Triangular Function Problem-5 [10 Pointsl A system has the transfer function h(s) = (s1)(s +2) a) Find the impulse response of the system b) Determine the output y(t), given that the input is x(t) u(t) Problem-6 [10 Pointsl Use the Laplace transform to solve the differential equation +22+10v(t) 3 cos(2t) dt2 dt subject to v(0)-1, dv(O) Problem-7 [10 Points] Solve the integrodifferential equation...
Problem 1:(20 points) Consider the RL circuit in Figure 1. You may assume that the switch...
Problem 1:(20 points) Consider the RL circuit in Figure 1. You may assume that the switch has been closed long enough for the voltages and currents to reach steady-state values. At timet 0 the switch is opened. 1 0 Rs Ri Figure 1: The switch in the RL circuit is opened at time t 0 1. (6 points) Find the voltage v(0-) and the current i(0) just before the switch is opened. 2. (6 points) Find the voltage v(0+) and...
Problem 2:(20 points) Consider the RC circuit in Figure 2. You may assume that the switch...
Problem 2:(20 points) Consider the RC circuit in Figure 2. You may assume that the switch has been opened long enough for the voltages and currents to reach steady-state values. At time t = 0 the switch is closed. t-0 Figure 2: The switch in the RC circuit is closed at timet0 1. (6 points) Find the voltage v(0-) and the current i(0) just before the switch is closed. 2. (6 points) Find the voltage v(0+) and the current i(0+)immediately...
Please do the problem if you can do ALL parts. t-0 a SW1 SW2 0.5 Ω 2 1Ω V. R3 20 A T v(t) 0.5 F 0.5 H 0 Find the initial current i(0) through the inductor and the initial voltage v(0) across the capa...
Please do the problem if you can do ALL parts.
t-0 a SW1 SW2 0.5 Ω 2 1Ω V. R3 20 A T v(t) 0.5 F 0.5 H 0 Find the initial current i(0) through the inductor and the initial voltage v(0) across the capacitor at t 0. b. Write a node equation at node a fort2 0. c. Represent v(t) as a function of i(t) on the series connection of R2 and L. Find dv(t)/dt. Derive a second-order differential...
Problem 7. Perform the following for the circuit below using the source transformation method 40 ...
Need help with Multisim to simulate these circuit diagrams. Any
Multisim works, preferrably Multisim Live
Problem 7. Perform the following for the circuit below using the source transformation method 40 5Ω 10Ω 100V 1Ω 20 30 3A a) Perform source transformations on the components inside the box in order to get a single voltage source and a single resistor, along with terminals a and b b) How does this compare to the Thévenin Equivalent circuit? c) Verify part (a) with...
do not use s domain method ,use only differential equation
3. In the circuit shown, switch 1 has been closed for a long time before it is opened at t 0, and switch 2 has been opened for a long time before it is closed at t = 0. SW2 sw, 0.5Ω R2 1(2 A, 20 A i(t) 0.5 H a. Find the initial voltage v(O)- Vo across the capacitor and initial current through the inductor (0) lo at t...
SW1 t=0 6uF Given the capacitor circuit, assume SW1 has been closed and SW2 open for a long time. The capacitors C1, C2, C3 are fully charged and C4 is completely uncharged. | 04 4uF C3 3.6uF J C2 - 10 V Auf At t=0, SW1 is opened and sw2 is closed. SW2 For t<0 6. Find the equivalent capacitance between terminals A and B fort<0 7. Find the energy stored in the equivalent capacitor before for t<0 8. Find...
if possible i does not want to use the Laplace transform
method
1. The switch in the circuit of Figure 1 has been closed for a long time but is opened at t = 0. Determine i(t) for t> 0. i(t) 212 mo 12 V t=0 F V + Figure 1
problem 7
Problem-4 [10 Points] Find the Laplace transforms of the functions in Figure. 2 Figure. 2: Triangular Function Problem-5 [10 Pointsl A system has the transfer function h(s) = (s1)(s +2) a) Find the impulse response of the system b) Determine the output y(t), given that the input is x(t) u(t) Problem-6 [10 Pointsl Use the Laplace transform to solve the differential equation +22+10v(t) 3 cos(2t) dt2 dt subject to v(0)-1, dv(O) Problem-7 [10 Points] Solve the integrodifferential equation...
Problem 1:(20 points) Consider the RL circuit in Figure 1. You may assume that the switch has been closed long enough for the voltages and currents to reach steady-state values. At timet 0 the switch is opened. 1 0 Rs Ri Figure 1: The switch in the RL circuit is opened at time t 0 1. (6 points) Find the voltage v(0-) and the current i(0) just before the switch is opened. 2. (6 points) Find the voltage v(0+) and...
Problem 2:(20 points) Consider the RC circuit in Figure 2. You may assume that the switch has been opened long enough for the voltages and currents to reach steady-state values. At time t = 0 the switch is closed. t-0 Figure 2: The switch in the RC circuit is closed at timet0 1. (6 points) Find the voltage v(0-) and the current i(0) just before the switch is closed. 2. (6 points) Find the voltage v(0+) and the current i(0+)immediately...
Please do the problem if you can do ALL parts.
t-0 a SW1 SW2 0.5 Ω 2 1Ω V. R3 20 A T v(t) 0.5 F 0.5 H 0 Find the initial current i(0) through the inductor and the initial voltage v(0) across the capacitor at t 0. b. Write a node equation at node a fort2 0. c. Represent v(t) as a function of i(t) on the series connection of R2 and L. Find dv(t)/dt. Derive a second-order differential...
Need help with Multisim to simulate these circuit diagrams. Any
Multisim works, preferrably Multisim Live
Problem 7. Perform the following for the circuit below using the source transformation method 40 5Ω 10Ω 100V 1Ω 20 30 3A a) Perform source transformations on the components inside the box in order to get a single voltage source and a single resistor, along with terminals a and b b) How does this compare to the Thévenin Equivalent circuit? c) Verify part (a) with...
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