ME369 Modeling,Analysis and System Control-A --Lecture 140924 Week 2# Laplace Transform-inverse, Ch2.4, Sep.22(M) solving equation,MATLAB 2.5(4th) Dynamic systems-mechanical Ch3.1~ HW1 due Sep.24(W) electrical system modeling 3.3 HW2 Week 3#Rest Week 4# 0ct.6M)) Rest Dynamic systems- Ch3.1~ Oct.8(W) mechanical/electrical system 3.3 modeling
ME369 Modeling, Analysis and System Control-A --Lecture_140924 Week 2# Sep.22(M) Laplace Transform – inverse, solving equation, MATLAB Ch2.4, 2.5 (4th ) Sep.24(W) Dynamic systems – mechanical / electrical system modeling Ch3.1 ~ 3.3 HW1 due HW2 Week 3# Rest Week 4# Oct.6(M) Rest Oct.8(W) Dynamic systems – mechanical/electrical system modeling Ch3.1 ~ 3.3
Problems of HW2 ·Refer to the ftp site. ftp://public.sjtu.edu.cn ·User:yuanjj ·Password:public DUE:Oct.13(M)
Problems of HW2 • Refer to the ftp site. • ftp://public.sjtu.edu.cn • User: yuanjj • Password: public DUE: Oct. 13 (M)
Solving Linear,Time-Invariant Differential Equations By taking the Laplace Transform of each term in the given differential equation. The time solutions of the differential equations is obtained by finding the inverse transform of the dependent variable. -Considering the initial conditions. Example 9 Find the Solutions of differential equation a,b are constants. 求+3元+2x=0,x(0)=a,(0)=b
– By taking the Laplace Transform of each term in the given differential equation. – The time solutions of the differential equations is obtained by finding the inverse transform of the dependent variable. – Considering the initial conditions. Example 9 Find the Solutions of differential equation x 3x 2x 0, x0 a, x0 b a,b are constants. Solving Linear,Time-Invariant Differential Equations
Example 10 Find the Solutions of differential equation: 求+2x+5x=3,x(0)=0,x(0)=0
Example 10 Find the Solutions of differential equation: x 2x 5x 3, x0 0, x 0 0
The solutions of differential equations Ke-a K sin @t Kea sin wt Kte-at
The solutions of differential equations at Ke K sin t sin at Ke t at Kte