Washington University in St. Louis has a Campus-Wide License for MATLAB, Simulink, and add-on products. Students may use these products for teaching, research, and learning at no charge.
Matlab 5.3.1 download free 64 bit. Development Tools downloads - MATLAB R2012a by The MathWorks, Inc. And many more programs are available for instant and free download. Download FEATool Multiphysics MATLAB FEM Toolbox for free. FEATool Multiphysics is an easy to use MATLAB FEM Simulation Toolbox. FEATool Multiphysics (is a fully integrated, flexible and easy to use physics and finite element FEM simulation toolbox for MATLAB. Developed with ease of use in mind, everyone is able to set up and perform complex multiphysics simulations in. Sep 07, 2017 The update applies to COMSOL ® software version 5.3 (Build: 223), version 5.3 update 1 (Build: 248), and version 5.3 update 2 (Build: 260). The update includes all performance and stability improvements from 5.3 update 1 and update 2 and can be applied directly to an installation of version 5.3.
The license allows all students to install the products on personally owned computers
(Please see installation instructions pdf).
(Please see installation instructions pdf).
- Use MATLAB to analyze data for homework, conduct research, and develop programming skills that prepare you for your future career. Campus-Wide Access Your school may already provide access to MATLAB, Simulink, and add-on products through a campus-wide license.
- Apr 07, 2020 MATLAB is a high-level language and interactive environment that enables you to perform computationally intensive tasks faster than with traditional programming languages such as C, C, and Fortran.
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Originally created byKristian Sandberg
Department of Applied Mathematics
University of Colorado
Updated for compatibility with Release 13 by
Grady Wright
Department of Mathematics
University of Utah
Grady Wright
Department of Mathematics
University of Utah
Goal
The goal of this tutorial is to give a brief introduction to the mathematical software MATLAB. After completing the worksheet you should know how to start MATLAB, how to use the elementary functions in MATLAB and how to use MATLAB to plot functions.
What is MATLAB?
MATLAB is widely used in all areas of applied mathematics, in education and research at universities, and in the industry. MATLAB stands for MATrix LABoratory and the software is built up around vectors and matrices. This makes the software particularly useful for linear algebra but MATLAB is also a great tool for solving algebraic and differential equations and for numerical integration. MATLAB has powerful graphic tools and can produce nice pictures in both 2D and 3D. It is also a programming language, and is one of the easiest programming languages for writing mathematical programs. MATLAB also has some tool boxes useful for signal processing, image processing, optimization, etc.
How to start MATLAB
Mac: Double-click on the icon for MATLAB.
PC: Choose the submenu 'Programs' from the 'Start' menu. From the 'Programs' menu, open the 'MATLAB' submenu. From the 'MATLAB' submenu, choose 'MATLAB'.
Unix: At the prompt, type matlab.
You can quit MATLAB by typing exit in the command window.
The MATLAB environment
Note: From now on an instruction to press a certain key will be denoted by < >, e.g., pressing the enter key will be denoted as <enter>. Commands that should be typed at the prompt, will be written in courier font.
The MATLAB environment (on most computer systems) consists of menus, buttons and a writing area similar to an ordinary word processor. There are plenty of help functions that you are encouraged to use. The writing area that you will see when you start MATLAB, is called the command window. In this window you give the commands to MATLAB. For example, when you want to run a program you have written for MATLAB you start the program in the command window by typing its name at the prompt. The command window is also useful if you just want to use MATLAB as a scientific calculator or as a graphing tool. If you write longer programs, you will find it more convenient to write the program code in a separate window, and then run it in the command window (discussed in Intro to programming).
In the command window you will see a prompt that looks like >> . You type your commands immediately after this prompt. Once you have typed the command you wish MATLAB to perform, press <enter>. If you want to interupt a command that MATLAB is running, type <ctrl> + <c>.
The commands you type in the command window are stored by MATLAB and can be viewed in the Command History window. To repeat a command you have already used, you can simply double-click on the command in the history window, or use the <up arrow> at the command prompt to iterate through the commands you have used until you reach the command you desire to repeat.
Useful functions and operations in MATLAB
Using MATLAB as a calculator is easy.
Example: Compute 5 sin(2.53-pi)+1/75. In MATLAB this is done by simply typing
5*sin(2.5^(3-pi))+1/75
at the prompt. Be careful with parantheses and don't forget to type * whenever you multiply!
Note that MATLAB is case sensitive. This means that MATLAB knows a difference between letters written as lower and upper case letters. For example, MATLAB will understand sin(2) but will not understand Sin(2).
Here is a table of useful operations, functions and constants in MATLAB.
Operation, function or constant | MATLAB command |
---|---|
+ (addition) | + |
- (subtraction) | - |
× (multiplication) | * |
/ (division) | / |
|x| (absolute value of x) | abs(x) |
square root of x | sqrt(x) |
ex | exp(x) |
ln x (natural log) | log(x) |
log10 x (base 10 log) | log10(x) |
sin x | sin(x) |
cos x | cos(x) |
tan x | tan(x) |
cot x | cot(x) |
arcsin x | asin(x) |
arccos x | acos(x) |
arctan x | atan(x) |
arccot x | acot(x) |
n! (n factorial) | gamma(n+1) |
e (2.71828...) | exp(1) |
p (3.14159265...) | pi |
i (imaginary unit, sqrt(-1)) | i |
Exercises
Compute the following expressions using MATLAB:
- 3cos(pi)
- 1+1+1/2+1/6+1/24-e
- ln (1000+2pi-2)
- e i pi
- The number of combinations in which 12 persons can stand in line. (Hint: Use factorials.)
Obtaining Help on MATLAB commands
To obtain help on any of the MATLAB commands, you simply need to type
help <command>
at the command prompt. For example, to obtain help on the gamma function, we type at the command prompt:
help gamma
Try this now. You may also get help about commands using the 'Help Desk', which can be accessed by selecting the MATLAB Help option under the Help menu.
Note that the description MATLAB returns about the command you requested help on contains the command name in ALL CAPS. This does not mean that you use this command by typing it in ALL CAPS. In MATLAB, you almost always use all lower case letters when using a command.
Variables in MATLAB
We can easily define our own variables in MATLAB. Let's say we need to use the value of 3.5sin(2.9) repeatedly. Instead of typing 3.5*sin(2.9)over and over again, we can denote this variable as x by typing the following:
x=3.5*sin(2.9)
(Please try this in MATLAB.) Now type
x+1
and observe what happens. Note that we did not need to declare x as a variable that is supposed to hold a floating point number as we would need to do in most programming languages.
Often, we may not want to have the result of a calculation printed-out to the command window. To supress this output, we put a semi-colon at the end of the command; MATLAB still performs the command in 'the background'. If you defined x as above, now type
y=2*x;
y
and observe what happened.
In many cases we want to know what variables we have declared. We can do this by typing whos. Alternatively, we can view the values by openning the 'Workspace' window. This is done by selecting the Workspace option from the View menu. If you want to erase all variables from the MATLAB memory, type clear. To erase a specific variable, say x, type clear x. To clear two specific variables, say x and y, type clear x y, that is separate the different variables with a space. Variables can also be cleared by selecting them in the Workspace window and selecting the delete option.
Vectors and matrices in MATLAB
We create a vector in MATLAB by putting the elements within [] brackets.
Example:x=[ 1 2 3 4 5 6 7 8 9 10]
We can also create this vector by typing x=1:10. The vector (1 1.1 1.2 1.3 1.4 1.5) can be created by typing x=[ 1 1.1 1.2 1.3 1.4 1.5 ] or by typing x=1:0.1:1.5.
Matrices can be created according to the following example. The matrix A= is created by typing
A=[1 2 3 ; 4 5 6; 7 8 9],
i.e., rows are separated with semi-colons. If we want to use a specific element in a vector or a matrix, study the following example:
Example:
x=[10 20 30]
A=[ 1 2 3 ; 4 5 6 ; 7 8 9]
x(2)
A(3,1)
Here we extracted the second element of the vector by typing the variable and the position within parantheses. The same principle holds for matrices; the first number specifies the row of the matrix, and the second number specifies the column of the matrix. Note that in MATLAB the first index of a vector or matrix starts at 1, not 0 as is common with other programming languages.
If the matrices (or vectors which are special cases of a matrices) are of the same dimensions then matrix addition, matrix subtraction and scalar multiplication works just like we are used to.
Example: Type
x=[1 2 3]
y =[4 5 6]
a=2
x+y
x-y
a*x
and observe what happens.
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If want to apply an operation such as squaring each element in a matrixwe have to use a dot . before the operation we wish to apply. Type the following commands in MATLAB.
x=1:10
x.^2
A=[1 2 3 ; 4 5 6 ; 7 8 9 ]
A.^2
A^2
and observe the result. The dot allows us to do operations elementwise. All built-in functions such as sin, cos, exp and so on automatically act elementwise on a matrix. Type
y=[0 1/4 1/2 3/4 1]
y=pi*y
sin(y)
and observe the result.
How to plot with MATLAB
There are different ways of plotting in MATLAB. The following two techniques, illustrated by examples, are probably the most useful ones.
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Example 1: Plot sin(x2) on the interval [-5,5]. To do this, type the following:
x=-5:0.01:5;
y=sin(x.^2);
plot(x,y)
and observe what happens.
Example 2: Plot exp(sin(x)) on the interval [-p,p]. To do this, type the following:
x=linspace(-pi,pi,101);
y=exp(sin(x));
plot(x,y)
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and observe what happens. The command linspace creates a vector of 101 equally spaced values between -p and p (inclusive).
Ocassionally, we need to plot values that vary quite differently in magnitude. In this case, the regular plot command fails to give us an adequate graphical picture of our data. Instead, we need a command that plots values on a log scale. MATLAB has 3 such commands: loglog,semilogx, and semilogy. Use the help command to see a description of each function. As an example of where we may want to use one of these plotting routines, consider the following problem:
Example 3: Plot x5/2 for x = 10-5 to 105. To do this, type the following:
x=logspace(-5,5,101);
y=x.^(5/2);
plot(x,y)
and observe what happens. Now type the following command:
loglog(x,y)
The command logspace is similar to linspace, however it creates a vector of 101 points lograthmically equally distributed between 10-5 and 105.
The following commands are useful when plotting:
Graphing functions | MATLAB command |
Label the horizontal axis. | xlabel('text') |
Label the vertical axis. | ylabel('text') |
Attach a title to the plot. | title('text') |
Change the limits on the x and y axis. | axis([xmin xmax ymin ymax]) |
'Keep plotting in the same window.' | hold on |
Turn off the 'keep-plotting-in-the-same-window-command'. | hold off |
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Note that all text must be put within ' '. The last two commands (hold on and hold off) are best explained by trying them next time you plot.
Exercises
- Plot sin(x) on the interval [-pi,pi] using spacing 0.5, 0.1 and 0.01 between the points where you will sample the function. (This will change the resolution). Experiment with the hold on command.
- Attach labels to the axis of the previous plot and give a title to the graph.
- Plot 5 cos(x2+1) on [-2pi,2pi]. Note that the squaring operation will require you to use the dot . in order for the squaring operation to act on each element individually. However, the addition operation (+) automatically acts on elements individually.