- 8.8.1: A rocket sled has the following equation of motion: 6v = 2700 24v. ...
- 8.8.2: Suppose the rocket motor in 8.1 takes 0.04 s to reach a constant th...
- 8.8.3: For each of the following models, obtain the free response and the ...
- 8.8.4: For the model 2x + x = 10 f (t), a. If x(0) = 0 and f (t) is a unit...
- 8.8.5: Obtain the steady-state response of each of the following models, a...
- 8.8.6: Obtain the total response of the following models. a. 6x + 5x = 20u...
- 8.8.7: A certain rotational system has the equation of motion 100 d dt + 5...
- 8.8.8: The RC circuit shown in Figure 8.1.2c has the parameter values R = ...
- 8.8.9: The liquid-level system shown in Figure 8.1.2d has the parameter va...
- 8.8.10: The immersed object shown in Figure 8.1.2e is steel and has a mass ...
- 8.8.11: Compare the responses of 2v + v = g(t) + g(t) and 2v + v = g(t) if ...
- 8.8.12: Compare the responses of 5v + v = g + g and 5v + v = g if v(0) = 5 ...
- 8.8.13: Consider the following model: 6v + 3v = g(t) + g(t) where v(0) = 0....
- 8.8.14: Obtain the response of the model 2v + v = f (t), where f (t) = 5t a...
- 8.8.15: Obtain the response of the model 9v + 3v = f (t), where f (t) = 7t ...
- 8.8.16: The resistance of a telegraph line is R = 10 , and the solenoid ind...
- 8.8.17: Obtain the oscillation frequency and amplitude of the response of t...
- 8.8.18: Obtain the response of the following models with the initial condit...
- 8.8.19: Obtain the response of the following models with zero initial condi...
- 8.8.20: Obtain the response of the following models with the initial condit...
- 8.8.21: Obtain the unit-step response of the following models with zero ini...
- 8.8.22: Find the response for the following models. The initial conditions ...
- 8.8.23: Suppose the input f (t) to the following model is a ramp function: ...
- 8.8.24: If applicable, compute , , n, and d for the following roots, and fi...
- 8.8.25: If applicable, compute , , n, and d for the dominant root in each o...
- 8.8.26: A certain fourth-order model has the roots s = 2 4 j, 10 7 j Identi...
- 8.8.27: Given the model x ( + 2)x + (2 + 5)x = 0 a. Find the values of the ...
- 8.8.28: The characteristic equation of the system shown in Figure 8.2.3 for...
- 8.8.29: The characteristic equation of a certain system is 4s2 + 6ds + 25d2...
- 8.8.30: The characteristic equation of a certain system is s2 + 6bs + 5b 10...
- 8.8.31: A certain system has two coupled subsystems. One subsystem is a rot...
- 8.8.32: A certain armature-controlled dc motor has the characteristic equat...
- 8.8.33: Compute the maximum percent overshoot, the maximum overshoot, the p...
- 8.8.34: A certain system is described by the model x + cx + 4x = us(t) Set ...
- 8.8.35: A certain system is described by the model 9x + cx + 4x = us(t) Set...
- 8.8.36: Derive the fact that the peak time is the same for all characterist...
- 8.8.37: For the two systems shown in Figure 8.3.8, the displacement y(t) is...
- 8.8.38: Suppose that the resistance in the circuit of Figure 8.4.1a is 3 10...
- 8.8.39: The temperature of liquid cooling in a cup at room temperature (68F...
- 8.8.40: Figure P8.40 shows the response of a system to a step input of magn...
- 8.8.41: A mass-spring-damper system has a mass of 100 kg. Its free response...
- 8.8.42: a. For the following model, find the steady-state response and use ...
- 8.8.43: The following model has a dominant root of s = 3 5 j as long as the...
- 8.8.44: Estimate the maximum overshoot, the peak time, and the rise time of...
- 8.8.45: What is the form of the unit step response of the following model? ...
- 8.8.46: Use a software package such as MATLAB to plot the step response of ...
- 8.8.47: Use MATLAB to find the maximum percent overshoot, peak time, 2% set...
- 8.8.48: Use MATLAB to compare the maximum percent overshoot, peak time, and...
- 8.8.49: a. Use MATLAB to find the maximum percent overshoot, peak time, and...
- 8.8.50: a. Use MATLAB to find the maximum percent overshoot, peak time, and...
- 8.8.51: a. Use MATLAB to find the maximum percent overshoot, peak time, and...
- 8.8.52: The following equation has a polynomial input. 0.125x + 0.75x + x =...
- 8.8.53: The following model has a polynomial input. x1 = 3x1 + 4x2 x2 = 5x1...
- 8.8.54: First create a Simulink model containing an LTI System block to plo...
- 8.8.55: Figure P8.55 shows an engine valve driven by an overhead camshaft. ...

# Solutions for Chapter 8: System Analysis in the Time Domain

## Full solutions for System Dynamics | 3rd Edition

ISBN: 9780073398068

Solutions for Chapter 8: System Analysis in the Time Domain

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System Dynamics was written by and is associated to the ISBN: 9780073398068. Chapter 8: System Analysis in the Time Domain includes 55 full step-by-step solutions. This expansive textbook survival guide covers the following chapters and their solutions. Since 55 problems in chapter 8: System Analysis in the Time Domain have been answered, more than 38290 students have viewed full step-by-step solutions from this chapter. This textbook survival guide was created for the textbook: System Dynamics, edition: 3.

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