Consider the translational mechanical system shown in Figure P4.17. A 1-pound force, f(t), is applied at r=0. Iff, -1, find K and M such that the response is characterized by a 4-second settling time and a 1-second peak time. Also, what is the resulting percent overshoot? [Section: 4.6] 0000

Consider the translational mechanical system shown in Figure P4.17. A 1-pound force, f(t), is applied at r=0. Iff, -1, find K and M such that the response is characterized by a 4-second settling time and a 1-second peak time. Also, what is the resulting percent overshoot? [Section: 4.6] 0000

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

See similar textbooks

Related questions

Q: For the next mechanic system, draw the free body diagram clearly and model the system in frequency…

A: The free-body diagram of the given system is shown below.

Q: nd peak time. Al t overshoot? [Sect

A: t=0fv=14-secondK=117% overshoot

Q: Find the transfer function G(s) = X1(s)/F(s) for the translational mechanical system:

Q: In a tank heater with agitator, the relationship between the tank outlet temperature (T) and the…

A: Given: 3dTdt=Q-5t To find: Gain and time constant

Q: You are working at a medical device company, and are helping to design a new needle system that…

Q: P 5.3: For the pole map shown: (a) comment on the stability of the various first-order systems, A,…

Q: Find the transfer function, G(s) =X;(s)/F(s), for the translational mechanical system shown in…

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

Q: 4.44 Consider the 2-degree-of-freedom system defined by: [2]+[233] x=0 3¾ X= Use modal analysis to…

A: The equation of 2 degree of freedom is defined by The initial condition are

Q: Problem 1. For the OL TF design a Pl compensator to eliminate error completely for ramp input at the…

A: given,open loop transfer functionG=ks(s+3)(s+3)

Q: The Routh-Hurwitz criterion to be used to determine the stability of a system with a characteristic…

A: The characteristics equation is given by : Solution : The characteristics equation is given by :…

Q: tating wheel of mass ?w (uniform mass distribution) is shown in Figure Q1. Springs and dampers are…

A: Wheel mass=mw

Q: Consider the transfer function of a 2nd order system given by: G₁(s) = a/(s² + bs + k) where a, b,…

A: Calculate the damping ratio (ζ) and the natural frequency (ωn) of the system using the following…

Q: [3 points] Consider the following system: R(s)+, Y(s) ki kps s+10 (a) What type is this system and…

Q: #3) a) Show that the below given system has the following representation where u=x. 1 £ - el ml %3D…

A: As per rules solved first question only

Q: Assignment: System with Lossless Gears PROBLEM: Find the transfer function,02(s)/T,(s). for the…

Q: point) Which of the systems presented on Fig. 2 is stable and which unstable? (a) Ха t Fig. 2.…

A: This question is based on the concept of stable and unstable system.

Q: Q2//A/ Find the unit step response for a system whose transfer function is: G(S) = 10 (S + 2) (S +…

Q: Part A: Find the steady-state solution of the mechanical system shown below: 7777777777 k C m F(0)…

A: The steady-state solution means a solution that is independent of time., it doesn't vary with time.…

Q: Obtain Unit-Step Response of First-Order Systems: C (t). R(S) C(s)

A: From Block diagram: G(s)=1/sH(s)=1 The unit step input is given as: R(s)=1/s

Q: 6. Consider the mechanical system shown in Fig. 8. Let V(t) be the input and the acceleration of the…

A: Below is the clarified and detailed explanation for above tricky question....if you are ok with my…

Q: For the system whose block diagram is shown in Fig.1, find the overall transfer function by using…

Q: Problem 4: Derive the response of the following first order system to a step input. mở + cv = f…

A: Given that , mv˙+cv=f

Q: Briefly explain the terms time constant, damping ratio, undamped natural frequency and damped…

A: Time constant: It tells us how fast a control variable responds to a given. It is measured as time…

Q: See Image

A: answer in explanstion section Explanation:Step 1:Step 2: Step 3: Step 4:

Q: PROBLEM: Find the transfer function, G(s) = X2(s)/F(s), for the translational mechanical system…

Q: Topic: Time Response Please Make it digital instead of handwritten if applicable but it can't…

Q: Find the transfer function, G(s) = x3 (s)/F(s), for the translational mechanical system below. Show…

A: Given,

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

Q: 11. Consider a system that can be modeled as shown. The input x in (t) is a prescribed motion at the…

A: To findCalculates the natural frequency, damping ratio, and damped natural frequency for the…

Q: Consider the translational mechanical system shown A 1-pound force, f(t), is applied at t = 0. If fv…

Q: Q.4- A model for feedback control system employing both angular position and velocity feedback is…

A: Given:The equation that describes the system is .Here, is rotary inertia, and are position and…

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

Q: Figure 2). 1.2 1 0.8 Peak value: 1.1878 0.6 Peak time: 2.0723 sec 0.4 splacement of mass

Q: Calculate the gain of the block diagram written with the question mark (?) In order for the transfer…

A: We Calculate the output value in the first case and see what needs to be added in the block to get…

Q: prisider the mechanical system shown in the figure. The output displacement x is neasured from the…

Q: For the unit step response shown find the transfer function of the system. 14 1.2 1.O 0.8 0.6 0.4…

Q: P2. At first-order system and its response to a step input are shown in fig. P2; what are the system…

A: Solution: Given Data: To Find: (a) Value of K? (b) Value of α?

Q: Y(s) Consider the plant P(s) = U(s) 1 with input u(t) and output y(t). s² + 2s + 10 Use Laplace…

Q: A dc motor develops 5 N-m of torque at a speed of 75 rad/s when 10 volts are applied. It stalls a…

A: Solution Since unit of D is not given so according to the conventional process I have taken it in…

Q: P4. The open loop transfer function of a unity feedback system is given by G(s) = K s(as+1)(Bs+1)…

A: The characteristic equation…

Q: For the transition matrix P below of a regular Markov chain, find the fundamental matrix Z and use…

A: Markov chain with transition matrix, P=14343414 To calculate fundamental matrix z, Let π is…

Question

Consider
in Figure
1 = 0. Iff,
the translational mechanical system shown
P4.17. A 1-pound force, f(t), is applied at
1, find K and M such that the response
is characterized by a 4-second settling time and a
1-second peak time. Also, what is the resulting
percent overshoot? [Section: 4.6]
1+
270
K

Expert Solution

This question has been solved!

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

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Step 3

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 3 steps with 3 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Fick’s Law of Diffusion and Mass Transfer

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

For the given close-loop system transfer function, determine its stability using Routh-Hurwitz Test for Stability.1. What is the stability of the system? (Stable, Unstable, Marginally Stable)
Determine the controllability and observability for this system
The mass spring damper system shown in the figure below. Derive the transfer function relating the input displacement, u(t) to the output displacement, x(t). The parameter values are as follows: m = 1 kg, k1 = 2 N/m, c1 = 1 Ns/m, k2= 1 N/m and c2 = 2 Ns/m. What is the settling time of the system's response to a unit step input? и ki k2 WWW. ww. m C2 O 2.31 seconds O 2.67 seconds O 3,27 seconds O 4.06 seconds O o o o
Please show solution clearly
Mechanical-Control Engg.
mecha
The s-plane plot of the poles and zeros graphically portrays the character of the natural response of a system. True O False
The state z(t) of a dynamical system is solution of equation ż(t) + aż(t) + 25z(t) = 12, with a = 7.3. Calculate the Peak time of the response.
Hand written please.
össlg äbäi What is the the transfer function of the first-order system which has the impulse response curve as in * ?the following figure Impulse Response 1.8 1.6 1.4 1.2 System: sys Time (seconds): 0.333 Amplitude: 0.737 1 0.8 Slop 0.6 0.4 0.2 0.2 0.4 0.6 0.8 1 1.2 1.4 1.6 1.8 Time (seconds) 1/(s+3) O 2/(s+3) O 6/(s+3) O No one of the answers in a, b, and c ( Amplitude 2.
:) Determine the equivalent mass of the system shown in Figure Q.A3c. X m 2r m Figure Q.A3c. m WE For the system shown in Figure QA1a write appropriate response variables and find the degrees of freedom. r= 10 cm /= 1.5 kg-m² m = 10 kg nollos 2k