5s + R(s) Y(s) 1 Σ 1/s s(s +3) s-1 Figure (2a) (b) Consider the above bock-diagram of figure (2a). You are now required to derive the transfer function, Y(s)/R(s), by using the signal flow graph method. Label in your working, the paths and loops associated with the block-diagram. .

5s + R(s) Y(s) 1 Σ 1/s s(s +3) s-1 Figure (2a) (b) Consider the above bock-diagram of figure (2a). You are now required to derive the transfer function, Y(s)/R(s), by using the signal flow graph method. Label in your working, the paths and loops associated with the block-diagram. .

Principles of Heat Transfer (Activate Learning with these NEW titles from Engineering!)

8th Edition

ISBN:9781305387102

Author:Kreith, Frank; Manglik, Raj M.

Publisher:Kreith, Frank; Manglik, Raj M.

Chapter4: Numerical Analysis Of Heat Conduction

Section: Chapter Questions

Problem 4.6P

See similar textbooks

Related questions

Q: You are considering an underdamped system with harmonic forced excitation mä + cả + ka = Fosin(wt).…

A: Vibration is defined as a back-and-forth movement or an emotion perceived by another person. The…

Q: 2. Assume the disturbance input f(t) = A sin wt is applied to the mass M. (50) a) Find the state…

A: Please see the attached solution:

Q: 2) A linear elastic SDOF system is given below with Tn= 1.1 s, m 1 kg, & = 5 %, u(0) = 0, ú(0) = 0.…

A: Given : To find : Displacement response

Q: equations: QB: Obtain the transfer function of system defined by the following state space 0 [x1 0…

Q: (a) Derive the transfer function, G(s) = 02(s) / T(s) by hand. (b) Find the percent overshoot, 2%…

Q: Q.1) Which of the following transfer function will have the greatest maximum overshoot? a)…

Q: 1. For the following mechanical translational system a. Write two differential equations of Order in…

Q: The coefficients of viscous friction at the two cylindrical masses are B1 and B2 respectively. The…

Q: (b) For the configuration shown below. Write the finite difference equation under steady state…

Q: Ose element Impedances and an impedance schematic to determine the transfer function G(s)3 Y(S)/U(s)…

Q: The transfer function of a system is shown below. Find the time constant, settling time and rise…

Q: The one-dimensional harmonic oscillator has the Lagrangian L = mx˙2 − kx2/2. Suppose you did not…

Q: 26. For the system shown in Figure P4.8, a step torque is applied at 0₁ (t). Find a. The transfer…

A: Settling time Settling time is the time required for an output to attain and stay inside a given…

Q: K Find the sampled-data transfer function G(z), for Gp(s) = -in cascade with a zero-order sample…

Q: Find the damped frequency w,for the following transfer function in rad/s 9. (S² + 6s + 9) Select…

A: Given:The damped frequency wd for the transfer function in rad/s=?Tranfer function=9s2+6s+9

Q: y4 Consider the Signal Flow Graph in the figure below and find the transfer function: yl -H2

A: The Mason’s gain formula for transfer function is given as, Where, T is the transfer function, M is…

Q: nk m The spring-mass-system shown in the figure has the following parameters: spring constant k = 4…

Q: Find the equivalent closed loop transfer function for the system R(s) E(s) Y(s) 3 s+2 K 10 s+10…

Q: e transfer function of figure 1.3 for the given values, add the BODE diagram and Fos graph. Kl=1…

A: (1 ) The laplace change of out-put to the laplace change of contribution at zero starting…

Q: 3. Given is the system in the figure below. The input is a sinusoidal vertical displacement p(t),…

Q: Homework Consider the following transfer functions. Determine 1. Whether the transfer function is…

Q: (25) For the rotational system shown in the fig- ure, write the equations of motion from which the…

Q: The eigenvectors {v}, and (v), of the following system: 6.0000 0.0000 87.0000 -56.0000 |(x()+.…

Q: Find the transfer function, C(s)/R(s), for the signal-flow graph in Figure (2). G,(s) Gols) Gals)…

Q: 2) Consider the transfer function of a system below. Please find the range of K for stability: K…

A: Given details: Gs=kS+3S+8S+10S+1+k

Q: The number of loops in the following signal flow graph نقطة زاحدة Rs) -H -Hy -H,

A: Required :- Number of loops in the signal flow diagram

Q: Consider the attitude dynamics of an aircraft with a transfer function 2s+0.1 G(s) s(s´+0.1s+4)…

Q: 4.78. Demonstrate that the system modes are orthogonal with respect to the [M] and [K] matrices for…

A: For solution refer below images.

Q: 6. Consider the following system and its differential equations www m₂ mi www k₁ üt b m₁* + bx + (k₁…

Q: Problem 1. Come up with 5 different transfer functions (tf) that will yield overdamped response.…

A: Overdamped response are the ones which have the value of damping constant(ratio) greater than (1). I…

Q: Find the free-response of the system in time domain due to the initial conditions: a(0) = 1, y(0) =…

A: The spring-mass system is as shown below, The free-body diagram is shown below, From Newton's…

Q: A small mixing tank with a long discharge line is attached to an input source pump: R1 R2 C Ps I a)…

A: A small mixing tank system is shown below in the diagram: Transfer function: A mathematical…

Q: 1) Figure la illustrates the movement of two object that are connected. Obtain the transfer function…

A: s per bartleby guidelines i can only answered one question at one time, Kindly upload other question…

Q: 1. As we discussed in class try to develop a homogeneous transform H from frame 1 to frame 2, by…

A: Here the above sum can be done by calculating the materix of frame

Q: 0(1) 18 N-m-s/rad 1 N-m-s/rad T(t) 02(1) H kg-m2 O 3 kg-m2 3 N-m/rad 9 N-m/rad (a) Figure P2.16a O…

A: from free body diagram of 5 kg-m2,…

Q: and number of closed loops and forward paths in the signal ſlow graph shown below is x.!. R

A: closed loop = 6

Q: Ex. 5.9.8: Pole locations in s-plane are given for two transfer functions G, (s) and G, (s) show…

Q: 2-Explain the concepts a) Small disturbance (small signal) stability b) Large disturbance…

A: a) Small Disturbance (small signal ) stability Definition : Small Signal stability its also called…

Q: Compute the Laplace Transforms of the following time domain functions from the Laplace…

Q: 1. Use Mason's rule to find the transfer function of the signal-flow diagram shown in figure below:…

A: It is required to find transfer function of the signal flow diagram

Q: For the transfer function below, Find the time constant. 361 G(s) s2+ 16s + 361

A: Given the transfer function below. G(s)= 361 / (s2 + 16s +361) To find the time constant

Q: (a) For the system given below, plot the root locus of the characteristic equation as the parameter…

A: a)from characteristic…

Q: ödalg äbäi What is the the transfer function of the first-order system which has the impulse…

Q: Find the Laplace Transforms of the following function: t<0 f(t) = e-at t20 Note: The scanned…

A: Given f(t)=0 t<0t2e-a.t t≥0

Concept explainers

Fluid Kinematics

The branch of science that deals with objects which are either in motion or stationary are studied under the branch of classical mechanics. Fluid mechanics is a subcategory of classical mechanics that deals with the behavior of fluids at rest (fluid statics) or in motion (posing some velocity). In fluid kinematics, studies focus on the associated motion of fluid particles or groups of particles, and its associated parameters like displacements, velocity, and acceleration without concerning about the forces that caused the motion. All the laws of classical mechanics are applied in the study of fluid kinematics.

Question

5s
+
R(s)
Y(s)
1
Σ
1/s
s(s +3)
s-1
Figure (2a)
(b) Consider the above bock-diagram of figure (2a). You are now required to derive the
transfer function, Y(s)/R(s), by using the signal flow graph method. Label in your
working, the paths and loops associated with the block-diagram. .

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Step by step

Solved in 2 steps with 2 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, mechanical-engineering and related others by exploring similar questions and additional content below.

Similar questions

Draw the signal flow graph of the following block diagram, then find the transfer function using Mason's rule R a G₁ H₁ H₂ G₂ +
Q2. Find the transfer function, C(s)/R(s), for the signal-flow graph in Figure (2). G|(s) G2(s) G3(s) G4(s) G3(s) R(s) Hj(s) H2(s) Gg(s) Gg(s) G,(s) H4(s)
1. Use Mason's rule to find the transfer function of the signal-flow diagram shown in figure below: G.S) Gy (s) C (s ) RCS) फेड
2- Using Matlab, what are the step response curves of the closed-loop system, as shown in fig.1. the feedback represents the second-order dynamic system. (fill in the following table) For=0.4 Wn 1 3 6 9 10 R(S) 0.1 0.3 0.6 0.9 1 For w 5 rad/sec 3 Settling time Peak response 2 Wn s(s+23wn) Settling time Peak response C(s) Discuss the follow Which parameters or w occur on the rise time of the response? Which parameter increases the speed of response? Which parameters can be decreases the response amplitude? Which parameter decreases the steady error state? fig.2
4G I. 3:22 A moodle1.du.edu.om Consider the 3 degree of freedom robot manipulator as shown in the figure Link 3 Länk 2 Trint 1 The objective is to find the kinematics inverse of the robot Px=0.9 m, Py=0.6, L1=1.5m, L2=1.5m and qz= 2 rad The value of cos(q2) is equal to Choose... + The positive value of sin(q2) is equal to Choose... + The value of q2 in rad is Choose... + The value of qı in rad is Choose... + The value of q3 in rad is Choose... +
nk int m The spring-mass-system shown in the figure has the following parameters: spring constant k = 4 N/m; mass m 6 %3D kg and the constant n = 1.6. M is the corresponding mass-matrix of the system. V1 and V2 are the eigenvectors associated with the smallest and largest natural frequencies of the system, respectively. If V,TV, = 1 and V2 V2 = 1, then what is value of V,™MV2 (in kg)? Answer:
T(t) 02(1) 0(t) 18 N-m-s/rad 1 N-m-s/rad $ kg-m2 3 kg-m2 000 9 N-m/rad 3 N-m/rad (a) Figure P2.16a O John Wiley & Sons, Inc. All rights reserved. The matrix form of the system is 5s +9s +9 0,(s) s² +s +1)0,(s) (s +9) T(s) а. (s + 8) s*s+1)- 5s +9s +9 b. 0,(s) 3s +s+120,(s) -(s+9) -(s +9) T(s)
3. Use the second method of frame assignment, and find the Jacobian of the following robot using the velocity propagation method (Ignore all theta related offsets): 03 02 L2 01 Please answer the question precisely and completely to use the second method of frame assignment to find the D-H table [alpha (i-1) , a (i-1) , d (i) , theta (i)], and find the jacobian matrix using the velocity propagation method
Compute the Laplace Transforms of the following time domain functions from the Laplace Transformation definition a) f(1) =r" b) f(t) =tcos(wt)
sole using laplace transforms Do not answer in image format
1) Consider the baseband pulse x(1) = n(2) = 11 a) Derive the complex ambiguity function for x(t) and compare your result with the one obtained in class. b) Use MATLAB to compute the complex ambiguity function and compare it to part (a). c) Now, consider the pulse x(t) = sinc(Bt) i) Derive the complex ambiguity function for x(t) and compare to the ambiguity function of the rect pulse. Make your observations. ii) Plot the ambiguity function using the mesh function and using the contour function. iii) Use MATLAB to compute the complex ambiguity function and compare it to part (ii).
O 1::09 O [Template] Ho... -> Homework For the system shown in figure below, Find the range of K for stable system. R K(s + 2) C s(s +5)(s² + 2s + 5) II