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- StudyBlue
- Arizona
- Arizona State University - Tempe
- Mathematics
- Mathematics 275
- Roudenko
- MATLAB EXERCISES.pdf

Anonymous

MATLAB EXERCISES 1. Equation of a straight line: The equation of a straight line is y=mxc where m and c are constants. Compute the y-coordinates of a line with slope m = 0.5 and the intercept c=−2 at the following x-coordinates: x = 0, 1.5, 3, 4, 5, 7, 9, and 10 2. Multiply, divide, and exponentiate vectors: Create a vector t with 10 elements: 1,2,3, ..., 10. Now compute the following quantities: • x=tsint • y=t−1t1 • z=sint 2 t2 3. Points on a circle: All points with coordinates x=rcos and y=rsin, where r is a constant, lie on a circle with radius r, i.e. they satisfy the equation x2y2=r2. Create a column vector for with the values 0, /4, /2, 3/4, , and 5/4. Take r =2 and compute the column vectors x and y. Now check that x and y indeed satisfy the equation of circle, by computing the radius r= x2y2. [To calculate r you will need the array operator .^ for squaring x and y. Of course, you could compute x2 by x.*x also.] 4. A simple sine plot: Plot y=sinx , 0≤x≤2, taking 100 linearly spaced points in the given interval. Label the axes and put 'Plot created by yourname' in the title. 5. Line-styles: Make the same plot as above, but rather than displaying the graph as a curve, show the unconnected data points. To display the data points with small circles, use plot(x,y,'o'). Now combine the two plots with the command plot(x,y,x,y,'o') to show the line through the data points as well as the distinct data points. 6. An exponentially decaying sine plot: Plot y=e−0.4 xsinx , 0≤x≤4 , taking 10, 50, and 100 points in the interval. [ Be careful about computing y. You need array multiplication between exp(-0.4*x) and sin(x)]. 7. Space curve: Use the command plot3(x,y,z) to plot the circular helix xt=sint , yt=cost , zt=t , 0≤t≤20. 8. Overlay plots: . Plot y=cosx in red and z=1− x 2 2 x4 24 in blue for 0≤x≤ on the same plot. [Hint: Use plot(x,y,'r',x,z,'--') ]. Add a grid to the plot using the command: grid on; ANSWERS TO EXERCISES 1. x=[0 1.5 3 4 5 7 9 10]; y = 0.5*x-2 Ans. y =[-2.0000 -1.2500 -0.5000 0 0.5000 1.5000 2.5000 3.0000]. 2. t = 1:1:10; x = t.*sin(t) y = (t-1)./(t+1) z = sin(t.^2)./(t.^2) 3. theta = [0;pi/4;pi/2;3*pi/4;pi;5*pi/4] r = 2; x = r*cos(theta); y =r*sin(theta); sqrt(x.^2+y.^2) 4. x = linspace(0,2*pi,100); plot(x,sin(x)) xlabel('x'), ylabel('sin(x)') title('Plot created by Stefania') 5. plot(x,sin(x),x,sin(x),'o') xlabel('x'), ylabel('sin(x)') 6. x=linspace(0,4*pi,10); %with 10 points y=exp(-.4*x).*sin(x); plot(x,y) x=linspace(0,4*pi,50); %with 50 points y=exp(-.4*x).*sin(x); plot(x,y) x=linspace(0,4*pi,100); %with 100 points y=exp(-.4*x).*sin(x); plot(x,y) 7. t = 0:0.1:20; plot3(sin(t),cos(t),t) 8. x = linspace(0,pi,100); y = cos(x); z = 1-x.^2/2+x.^4/24; plot(x,y,'r',x,z,'--'); grid on; legend('cos(x)','z') %try this legend command b w

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