% MATLAB basics
%
% MATLAB = Matrix Laboratory
%
% Starting MATLAB
% command window
% workspace
% command history
%
% MATLAB as a calculator
1+1
2*3
1-2*3
(1-2)*3
1+2*3^4
((1+2)*3)^4
1*2/3
pi
sin(1)
asin(1/sqrt(2))
1/81
1/81*1000
%
% Exponentiation has the highest precedence,
% followed by multiplication and division,
% followed by addition and subtraction.
% Expressions are otherwise evaluated left to right.
% Parentheses alter the precedence,
% with the usual precedence applied within each set of parentheses
%
format short
format long
format short e
format long e
%
% Special Functions and Values
pi
e=exp(1)
log(e)
% log is the natural log.
% If you want a different base, try 'help log'
% sin, cos, tan, sec, csc, cot, asin, etc.
% %
% Everything to the right of % is treated as a comment.
%
%
% Using variables
% A variable is a means of storing numbers (information).
% An array is a means of storing a sequence of numbers.
%
a=2
b=3
c=a*b
d=a^b
e=cos(d)
%
who
%
% semicolon suppresses output
f=csc(pi/2);
f
%
% variable names are case sensitive
A=5
a
A
%
% There are certain reserved words that cannot be used as variable names,
% e.g. pi.
clear % removes all variable definitions
clear b
b
%
% Continue a line with three periods in succession
a = 3+b-...
d
%
% uparrow and downarrow scroll backwards and forwards through command
% forward arrow and backward arrow move cursor along command line.
%
% Return with the cursor at any location executes command.
% Escape erases command.
% Ctrl+C stops calculation.
%
clc % clears screen.
quit % exits Matlab.
exit % also exits Matlab.
help % getting help with Matlab.
%
%
%
%
% Arrays
a=[1 2 3 4 5]
%OR
a=[1,2,3,4,5]
whos
a(2)
a(3)
b=[2 3 5 7 11 13 17 19];
b(4)
%
% You can change entries in an array using the array editor.
%
% Operations with arrays
5*a
a/2
a*b
a(6)=6
a(7)=7
a(8)=8
a*b
a.*b
a.^2
%
% Plotting
%
help plot
a=[1:1:10];
b=5*a;
plot(a,b,'-')
hold on
c=2*a;
plot(a,c)
d=10*a;
plot(a,d);
title('Some straight lines')
xlabel('x')
ylabel('y')
hold off
%
plot(a,b,a,c,a,d)
plot(a,b,'-.or',a,c,'x-k',a,d,'+:g')
%
%
% Saving your work
% Saving workspace variables
%
% >> save
%
% Saves workspace variables into a file called filename.mat
% This option does not save a command history,
% it only saves values for variables that you have entered.
%
% >> load
%
% gets them back
%
% Keeping a session log
%
% >> diary .txt
%
% Begins to log all commands and output into a file called .txt,
% This file is stored in the Matlab work folder (i.e. c:\MATLAB6p1\work.)
%
% >> diary off
%
% Arrays, Vectors, and Matrices
%To create a row vector, make in same way you create an array
row=[1 2 5.4 -6.6]
%To create a column vector, use a semicolon to separate each element
column=[4;2;7;4]
%You can tell the difference between a row and column vector by looking in
%the workspace, displaying the variable, or using the size function
%length is also a useful function
%Matrices can be made like vectors
%Element by element
Mat=[ 1 2;3 4]
%Concatenating vectors of matrices (dimension matters)
a=[ 1 2];
b=[3 4];
c=[5;6];
d=[a;b];
e=[d c]
%Some useful matrix functions: zeros, ones, eye, rand
%Vector indexing starts at 1, not 0
%Matrix entries can be accessed using subscripts
%Look up ind2sub and sub2ind in help to convert between subscripts and
%indices
e(2,1)
%Picking submatrices
e(1:2,2:3) %Specify contiguous submatrix
e([1 3], [2 3]) %Specify rows and columns
%To select rows or columns of a matrix, use :
e(1,:)
e(:,3)
e(2,:)=[3 6];
% Matlab contains functions to help you find desired values: min, max, find
% M-files
% In order to save a command sequence,
% you will want to create an M-file.
% From the "File" menu, click on "New" and M-file.
% This will open an editor window.
% You can type commands here and save the file with a .m extension.
% You can execute your saved file at any time
% by typing the name of the file (without the .m) in the command window.
% You can also execute the file by using the F5 button
% or the icon that looks like a down arrow next to a page.
% Logical Variables
% Matlab uses logical variables or arrays
% to denote a true or false statement using the numbers 1 and 0.
%
% Example:
a = 40
a > 50
a < 10
a >= 39
% Control Flow Statements:
% For loops: Use for a known number of iterations
for j=1:10
j
end
%
for j=1:10
5*j
end
%
for j=1:10
fprintf('hello guest %d\n', j)
end
% how many primes from 1 to 20???
number=0;
for j=1:20
number=number+isprime(j);
end
number
%
for j=0:5
for k=0:9
fprintf('%d%d\n',j,k)
end
end
%
for j=1:5
A(j)=j;
end
A
%
for j=1:5
for k=1:5
M(j,k)=j*k;
end
end
M
% While loops: a more general for loop, don't need to know the number of
% iterations
%The command block will execute while the conditional expression is true
j=0;
while j<10
j=j+3;
end
j
%
numsteps=0;
tolerance=1;
while tolerance>0.01
%do stuff
tolerance=tolerance*1/2;
numsteps=numsteps+1;
end
% Some useful commands:
% Recall 1:10 results in 1 2 3 4 5 6 7 8 9 10.
% The command 1:2:10 results in 1 3 5 7 9.
% It's useful in for loops to sometimes use something like 10:-1:1,
% which gives 10,9,8,...,1.
% The command rand(1,10) gives an array of random numbers between 0 and 10.
% To create an empty array called myarray, type
% myarray = []
%
% Machine Epsilon:
% Computers can differentiate between numbers up to a certain precision.
% The command "eps" gives the smallest number such that, if added to 1,
% will give a number that the computer recognizes as different from 1.