please answer all parts. 4.30 In the SMD system shown in Fig. P4.30, vx(t) is the...
please answer all parts.
4.30 In the SMD system shown in Fig. P4.30, vx(t) is the input velocity of the platform and vy(t) is the output velocity of the 100 kg mass. v(t) 100 kg Ns 100 100 S 100 kg 100 N Sv() 100 Figure P4.30: SMD system of Problem 4.30. APPLICATIONS OF THE LAPLACE TRANSFORM PTER 4 (a) Draw the equivalent s-domain circuit. (c) Determine the frequency response. Hint: Use two node equations.
4.30 In the SMD system...
o by completing For the circuit, determine Vx C+) for t the following steps. ictly & I ign a) Determine the initial values Velt=0') and inco) 4123ca 02 4+3u(+) ! Buco 6) Draw the s-domain equivalent circuit and then, determine Vacs) lo Determine the values vx ct=c+) and wx Ct = 0) by analyzing the circuit in the time domain. Use initial and final value theorems to verify both. vx Ct = 0+) and rx Ct = go) Laplace transform...
For the circuit shown below. Ifv.(t) = 100 cos(2001+30) V and vy(t) = 50 cos(2000) V. a) Redraw the circuit using Phasor equivalent. b) In the Phasor domain, find the node voltage equations. 1 mF 20 ml 30 000 30 mH 0.25 mF
For the time-domain circuit shown in Fig. 2 the switch is closed
at t = 0.
a. Draw the equivalent circuit in s-domain.
b. Write a pair of simultaneous s-domain mesh current
equations.
2A * 4H 0.2 F 14v 149) 0.25 F 10 V izle G Fig. 2
HI, PLEASE ANSWER ALL PARTS AND PLEASE SHOW ALL WORKINGS STEP BY STEP. THANK YOU. Question 1: a) Show from first principles that the Laplace transform of the function f(n)=1, 120 is f(s) = Make a note of any conditions imposed on the transform variable "s" to ensure the transform exists. (8 Marks) b) Find, using the appropriate theorem, the Laplace transform of a function f(t); b) f(t) = t.sin(56) OR ii) f(t) = 5 sin 2(t - 3). H(t...
Problem 2 (20 points total): 4 Consider the following system for Parts a-c. 2 N-s/m x2(t) xz(t) 0000- 6 N/m 2 N-s/m xi(t) 2 N-s/m 6 N/m 4 kg 4 kg 00004 kg f(t) Frictionless Part 2a (8 points): Draw free body diagrams for each mass Part 2b (6 points): Write the equations of motion for each mass as differential equations in the time domain." Part 2c (6 points): Convert the equations of motion for each mass into algebraic equations...
please solve number 2 and number 4 from the following
picture.
2. The equivalent s-domain model for an RC circuit is shown below. w The loop equation in the s-domain is given by: 3165) + 16 = 3244 Determine the current i(t). Use the phase shift approach. 3. Determine the inverse Laplace transform of s? Y(s) - 10s +3[sY(s) - 10 ] + 2Y(s) = - 4. Clearly answer the following questions: a. Explain the purpose of using the Laplace...
need help with all parts
Problem #6 - (18%) The circuit below has initial conditions I(t=0)=0 A and Vet=0) = 8 V Do the following: 10 * YO a) Draw the s-domain equivalent circuit. (4%). Analysis shows that the Laplace Transform of voltage Vc is: 8.92.C + v=d Vc(s) = (S2+RCL b) Substitute numbers in the equation above and express in a partial fraction expansion. (Do your work on the following page) (6%) c) Compute an expression for the time...
HI, PLEASE ANSWER ALL PARTS AND PLEASE SHOW ALL WORKINGS STEP BY STEP. THANK YOU. a) Show from first principles that the Laplace transform of the function (0)=1, a 20 is f(3) = Make a note of any conditions imposed on the transform variable "s" to ensure the transform exists. (8 Marks) b) Find, using the appropriate theorem, the Laplace transform of a function f(t): f(t) = e-3t.sin(4t) OR Find the inverse Laplace transform of the following: ses f(s) =...
Before t = 0 the circuit shown has been operating. At t = 0,
the switch closes. We wish to determine the current i(t) for all t
>= 0.
a) By the circuits physics, determine the initial conditions
needed for analyzing the circuit for all t >=0. Determine and
draw the equivalent circuit for all t <= 0, ilustrate any
current or voltage used in the analysis, and the initial conditions
being determined.
b) Determine and draw the equivalent circuit...