Derive separate formulas for and using the equation above then calculate and to have (Peak Time) = 0.2 seconds and (Overshoot) OS = 15%.
Please upvote our work. THANK YOU !!
Derive separate formulas for and using the equation above then calculate and to have (Peak Time)...
5. Derive the equation of motion for Example 3 in Lecture 7 using the conservation of energy approach. We were unable to transcribe this image
Consider the Solow growth model that we developed in class. Output at time t is given by the production function where A is total factor productivity, Kt is total capital at time t and L is the labour force. Total factor productivity A and labour force L are constant over time. There is no government or foreign trade and where Ct is consumption and It is investment at time t. Every agent saves s share of his income and consumes...
Consider a particle described by the wave function Calculate the time derivative in where is the probability density, and shows that the continuity equation is valid, where the probability current Use the Schrodinger equation. We were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this image
I answered a & b But I need the answer of C and D by using MATLAB software Given the electric network shown in Figure. a) Derive the mathematical model of the following electrical network b) Drive transfer function os) c) Find the step response analytically and by using MATLAB. d) Plot the response of the systems. Vi(s) 1 92 1 H We were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this...
in studying the effect of work experience and gender on wage,the equation below were estimated.They have individual wage wagei ,dependent variable and work experience experi and dummy variable womani [indicating the gender of individual i] wagei 0+1experi+2womani+ui wage= 0+1experi +2womani +3womani experi +ui A ] how should the parameters k in the model to be interpreted. B ] what is the marginal effect of experience in each mode? C ] how does the second equation relate to estimating the effect...
Figure below shows the time response of the system mechanical figure above to a force in step of 8.5 N. Following the analysis of the system in the figure above a) Determine the transfer function X(s)/F(s) of the system and give the standard form of the latter. b) Based on the response of this system at 8.5 N, determine the , and parameters of the mechanical system. c) By combining the results found previously, determine the value of the three...
The equilibrium constant for the following reaction can be expressed by the empirical formula in the interval 445 K < T < 460 K. Use this expression to calculate ∆rH◦ and ∆rS ◦ at 450 K and derive an equation for ∆fH◦ of Ag2O (s) in this temperature range. Now use the following heat capacity data: to calculate ∆rH◦ , ∆rS◦ , and ∆rG◦ at 298 K. Would Ag2O be automatically decomposed when exposed to the atmosphere (the partial pressure...
Solve the system by writing a matrix equation, then solve using the inverse with a calculator. 5. You have 37 coins that are nickels, dimes, and pennies. The total value of the coins is $1.55. There are twice as many pennies as dimes. Find the number of each type of coin in the bank. Answer: Let n be the number of nickels, d be the number of dimes, and p be the number of pennies. The system is 1st equation:...
The position vs time of a object is given by 1. What is the y velocity in m/s at 4.5 seconds? Answer in m/s. 2. At what time is the speed equal to 15 m/s? Answer in s. 0 s 1 s 2 s 10 s 21/2 s 23/2 s 3. The velocity of an object vs. time is given by What is the acceleration at t = 2s? Note: the acceleration is non-constant! Take the derivative of the velocity!...
Derive time equation but for that first we have to derive acceleration using the following equations: [1] mg*sin(θ) – fs = ma [2] Rfs = Iα [3] I = cmR2 [4] α = a/R Once we have derived acceleration in terms of sin(θ), g, and c , we are then asked to derive time based on kinematic equation. The time equation should be based on of y, c, g, and d. d=length of Ramp.y=Height of ramp.