Experiment 2: Introduction to MATLAB II
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1 Experiment : Introduction to MATLAB II.Vector, Matrix and Array Commands Some of MATLAB functions operate essentially on a vector (row or column), and others on an m-by-n matrix (m >= ). Array find length linspace logspace max min prod reshape size sort sum Commands Finds indices of nonzero elements. Computers number of elements. Creates regularly spaced vector. Creates logarithmically spaced vector. Returns largest element. Returns smallest element. Product of each column. Change size Computes array size. Sorts each column. Sums each column. >> = [ ]; indices = find() indices = >> indices = find(>) indices = 8 9 >> length() 9 >> max() 8 >> min() - > sort() >> sum() 6
2 >> sum(,) 6 >> sum(,) >> Create a vector of 4 linearly spaced numbers from to : >> A = linspace(,,4) A = Matrix Functions Much of MATLAB s power comes from its matrix functions. Some useful ones are: eig inv poly det size rank eigenvalues and eigenvectors inverse characteristic polynomial determinant size rank [V,D] = eig(a) produces matrices of eigenvalues (D) and eigenvectors (V) of matrix A M = magic(n) returns an n-by-n matrix constructed from the integers through n^ with equal row and column sums. The order n must be a scalar greater than or equal to. >> A=magic() A = >> [c d]=eig(a) c = d =
3 . Calculus The Symbolic Math Toolbox provides functions to do the basic operations ofcalculus; differentiation, limits, integration, summation, and Taylor seriesexpansion. The following sections outline these functions.. Differentiation diff(f) differentiates f with respect to its symbolic variable (in this case x) Let s create a symbolic expression. >>syms a x f = sin(a*x) diff(f) f = sin(a*x) a*cos(a*x) To differentiate with respect to the variable a, type diff(f,a) which returns df / da cos(a*x)*x To calculate the second derivatives with respect to x and a, respectively, type diff(f,) or diff(f,x,) which return -sin(a*x)*a^. Limits The fundamental idea in calculus is to make calculations on functions as a Variable getscloseto orapproachesacertainvalue. Recallthatthedefinition of the derivative is given by a limit provided this limit exists. The Symbolic Math Toolbox allows you to computethe limits of functions in a direct manner. And >>syms h n x limit( (cos(x+h) - cos(x))/h,h,0 ) -sin(x)
4 limit( ( + x/n)^n,n,inf ) exp(x) In the case of undefined limits, the Symbolic Math Toolbox returns NaN (not a number). The command limit(/x,x,0) or limit(/x) returns NaN Observe that the default case,limit(f) is the same as limit(f,x,0).explore the options for the limit command in this table. Here, we assume that f is a function of the symbolic object x. Mathmatical Operation lim f ( x) x 0 lim f ( x) xa lim f ( x) xa lim f ( x) xa MATLAB command Limit(f) Limit(f,x,a) Limit(f,x,a, left ) Limit(f, x,a, right ). Integration If f is a symbolic expression, then the integration of f int(f) We can do this in (at least) three different ways. The shortest is: >>int( xˆ ) /*xˆ Alternatively, we can define x symbolically first, and then leave off the single quotes in theint statement. >>syms x >>int(xˆ) /*xˆ 4
5 Mathematical Operation MATLAB Command int(x^n) or int(x^n,x) >>int(sin(*x),x,0,pi/) >> g = 'cos(a*t + b)' g = cos(a*t + b) >>int(g) sin(b + a*t)/a 4.Solving Equations Solving Algebraic Equations If S is a symbolic expression,solve(s)attempts to find values of the symbolic variable in S (as determined byfindsym) for which S is zero. For example, >>syms a b c x S = a*x^ + b*x + c; solve(s) -(b + (b^ - 4*a*c)^(/))/(*a) -(b - (b^ - 4*a*c)^(/))/(*a) This is a symbolic vector whose elements are the two solutions. Ifyouwanttosolveforaspecificvariable,youmustspecifythatvariableasanadditional argument. For example, if you want to solve S for b, use thecommand >> b = solve(s,b) b = -(a*x^ + c)/x Note that these examples assume equations of the form f(x) = 0. If you needto solve equations of the form f(x)=q(x) you must use quoted strings. Inparticular, the command s = solve('cos(*x)+sin(x)=') s = 0 pi/6 (5*pi)/6 5
6 4. Several Algebraic Equations Now let s look at systems of equations. Suppose we have the system and we want to solve for x and y. First create the necessary symbolic objects. There are several ways to address the output of solve. One is to use a two-output call >>syms x y alpha >> [x,y] = solve(x^*y^, x-y/-alpha) x = alpha 0 y = 0 (-)*alpha 5: Single Differential Equation The function dsolve computes symbolic solutions to ordinary differentialequations. The equations are specified by symbolic expressions containing theletter D to denote differentiation. The symbols D, D,... DN, correspond to thesecond, third,..., Nth derivative, respectively. Thus, Dy is the Symbolic Mathof The dependent variables are those preceded byd and the default independent variable is t. Note that names of symbolicvariablesshouldnotcontaind.theindependentvariablecanbechangedfromt to some other symbolic variable by including that variable as the last inputargument. Initial conditions can be specified by additional equations. If initial conditions are not specified, the solutions contain constants of integration, C, C, etc. The output from dsolve parallels the output from solve. That is, you can call D solve with the number of out put variables equal to the number of dependent variables or place the output in a structure whose fields contain the solutions of the differential equations. Example The following call to dsolve dsolve('dy=+y^') uses y as the dependent variable and t as the default independent variable. The output of this command is >>dsolve('dy=+y^') i -i tan(c4 + t) 6
7 7 To specify an initial condition, use y = dsolve('dy=+y^','y(0)=') y = tan(t+/4*pi) Notice that y is in the MATLAB workspace, but the independent variable t is not. Thus, the command diff(y,t) returns an error. To place t in the workspace, type syms t. 6.Linear algebra in MATLAB Solving Equation One of the most important problems in technical computing is the solution of simultaneous linear equations. In matrix notation, this problem can be stated as follows. we may need to find x, x, and x so that 4 6 The problem can be rewritten in matrix-vector notation. We introduce a matrix A and a vector b by ; 4 6 b A Now we want to find the solution vector so that b A A = [ -; ; - - ] b = [ ; -; ] = A\b Matlab should give the solution
8 7. Polynomial Roots and Characteristic Polynomial If p is a row vector containing the coefficients of a polynomial, roots(p) returns a column vector whose elements are the roots of the polynomial. If r is a column vector containing the roots of a polynomial, poly(r) returns a row vector whose elements are the coefficients of the polynomial. To find the roots of following polynomial S 6 9S 5.5S 4 6.5S 67.75S 4.75S 5 The polynomial coefficients are entered in a row vector in descending powers. The roots are found using roots. p = [ ] r = roots(p) The polynomial roots are obtained in column vector r = i i i i If we want to find the coefficient of polynomial that has the roots-, -, - j4. We write this r = [ i --4i ] p = poly(r) The coefficients of the polynomial equation are obtained in a row vector. p = Therefore, the polynomial equation is S 4 9S 45S 87S
9 Polynomial Evaluation If c is a vector whose elements are the coefficients of a polynomial in descending powers, the polyval(c, x) is the value of the polynomial evaluated at x. For example, to evaluate the above polynomial at points 0,,,, and 4, use the commands >> c = [ ]; x = 0::4; y = polyval(c, x) y = You may use the following functions; try to find out its function Polyval,polyvalm 8. Laplace Transformation The laplace Transformation in MATLAB is very easy way. MATLAB has a function called (laplace) which transfer a function from time-domain to S- Domain.Befor you use this function you must declare the variable by symsfunction,see the below examble >>syms t >>laplace(t^5) 0/s^6 To get the laplaceinverse it is very easy also, only use ilaplace after decler the variable >>syms s ilaplace(/(s-)) exp(t) Or by using Partial-Faction Expansion with MatLab as below example 9
10 Consider the following transfer function: S 5S S 6 S 6S S 6 we write num=[ 5 6] den=[ 6 6] [r,p,k]=residue(num,den) r p k Which mean 6 S 4 S S 0
11 Exercise. Write an M-file to code the function g( x) ( x )exp( x (a.) Test your function by evaluating it at x and x. (b.) Test that your function works correctly when x is a vector by evaluating =[ ] (c.) Plot your function for x using both fplot and the plot command (learn more about fplot).. Find the inverse laplace transforms and the partial fraction of ) a. b. S ( S 9) (S 4S 08) S( S 6) - Use symbolic integration to fined 4- solve 5- find the second derivative of f(x)=sin(e x ). 6- find the derivative of f(x,y)=x y 4 +ysinx. ( ) 7- solve 8-solve ( ) ( )
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