- Find the state-space representation of the network shown in Figure if the output is wel)...
Find the state space representation of the electrical circuit shown in figure, output is iL, and vL. M
1- [25] Find the state-space representation of the system shown in the Figure. The output is Vo(t) R v;(t) C0000
Answer all the following questions Given the following electrical network, find a state-space representation if the output is the current through the inductor. 1. R-2 ? IL(t) IR(t) |
Problem 3 3. Consider the input-output representation of the system given below. Find a state-space representation that is equivalent to this input-output representation.
Write a state-space representation for the system in the figure below. Assume that the system's output isvo(t).
a) Consider the electrical circuit in Figure 1. Determine the state space representation of the circuit where the output is voltage across the capacitor. (6 marks) b) From result obtained in (a), predict the transfer function. (4 marks) [10 MARKS] 1 Ω 192 112 W vi(t) 1 H elle 1 H Illl 1 F volt) Figure 1
in the figure, obtain the state-space representation of the syster thè 1. Consider the mechanical system shown ssume y() is the output. (25 marks) ce representation of systel. ki lu k2
10.Represent the translational mechanical system shown in the Figure in state- space, where xX3(t) is the output IN- 11.Find the state equations and output equation for the phase-variable representation of the transfer function G(s) 2s+1/(s2+7s+ 9) 12. Convert the state and output equations shown to a transfer function. -1.5 2 u(t) X = X 4 0 Y [1.5 0.625]x 13. For each system shown, write the state equations and the output equation for the phase- variable representation 8s10 sh25 t26...
Question 1 a) Consider the electrical circuit in Figure 1. Determine the state space representation of the circuit where the output is voltage across the capacitor. (6 marks) b) From result obtained in (a), predict the transfer function. (4 marks) [10 MARKS] 112 192 112 VAD 1 H 1F Figure 1
Question 1 a) Consider the electrical circuit in Figure 1. Determine the state space representation of the circuit where the output is voltage across the capacitor. (6 marks) b) From result obtained in (a), predict the transfer function. (4 marks) [10 MARKS] 192 192 112 M M w + + Vilt) 1 H sooo 1 H nooo 1F vo(t) Figure 1