Difference between revisions of "Matlab Basics"
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If we omit the <tt>;</tt> on the line for <tt>yt</tt> MATLAB will print its value. Or we can simply type the variable and MATLAB will print it. Doing this we see that the projectile reaches a height of 1,397.5 feet at 9.317 seconds (neglecting air resistance). This illustrates the convenience of using variables. The MATLAB code reads much like our original equations did. | If we omit the <tt>;</tt> on the line for <tt>yt</tt> MATLAB will print its value. Or we can simply type the variable and MATLAB will print it. Doing this we see that the projectile reaches a height of 1,397.5 feet at 9.317 seconds (neglecting air resistance). This illustrates the convenience of using variables. The MATLAB code reads much like our original equations did. | ||
+ | |||
+ | ==== Tips on Defining Variables ==== | ||
+ | * Variables in MATLAB are ''case-sensitive''. That means that <tt>myVariable</tt>, <tt>myvariable</tt>, <tt>MyVariable</tt> and <tt>MYVARIABLE</tt> are all ''different'' variables and can all have different values. | ||
+ | * Variables may be defined by other variables. In that case, the righ-hand side is evaluated and then stored in the variable. For example: | ||
+ | <source lang="matlab"> | ||
+ | a=5; % a is 1. | ||
+ | b = a+2; % b is 7. | ||
+ | a=1; % b is still 7, a is 1. | ||
+ | </source> | ||
+ | * Variables may be numbers or strings (characters). For example: | ||
+ | <source lang="matlab"> | ||
+ | a=pi; % a is 3.14159265... | ||
+ | a = "hello"; % a is now "hello" | ||
+ | </source> | ||
+ | * Use a semicolon ''';''' to terminate every MATLAB statement. Omitting the semicolon will result in the results being displayed in the command window. This is not good practice in general. | ||
+ | ** To print out variables, use the [[Matlab_IO|Input/Output]] techniques provided by MATLAB. | ||
+ | * See [[Matlab_Arrays|this link]] for information on defining arrays (vectors & matrices). | ||
=== Useful Commands === | === Useful Commands === |
Revision as of 13:43, 19 August 2008
Contents
The Command Window
MATLAB's command window can be used as a very powerful calculator. The >> indicates that MATLAB is ready to accept a command. It works much like your calculator. For example,
>> 1 + cos(pi/2) ans = 1 >> 5^2 % square 5 ans = 25
Note that anything following a % on a line is ignored. This allows us to include comments in our calculations.
Defining Variables
By using variables instead of numbers, our calculations look much like they would on paper. For example, from physics we know that projectile motion (in the absence of air resistance) is governed by the equations
where and are the position and velocity of the projectile at time and is the acceleration.
Assume that we have the following problem:
A bullet is shot upward with an initial velocity of 300 feet per second (fps). Determine the maximum height of the bullet.
The maximum height occurs when . We can solve the equation for to find
This gives the time at which the bullet reaches its maximum height. We can then use the equation for to determine how high it is at that time.
Let's solve this in MATLAB. First we define the initial height, the initial velocity, and the acceleration. We also know the final velocity - it is zero.
y0 = 0.0; % initial height (feet)
v0 = 300; % initial velocity (feet/s)
vt = 0.0; % final velocity (feet/s)
a = -32.2; % gravitational acceleration (feet^2/s)
Now we can define the time that the projectile reaches its maximum height, and then determine what the maximum height is. We use the variables we just defined:
t = (vt-v0)/a; % time (s) when the bullet stops (maximum height)
yt = y0 + v0*t + a*t^2/2; % maximum height (feet).
If we omit the ; on the line for yt MATLAB will print its value. Or we can simply type the variable and MATLAB will print it. Doing this we see that the projectile reaches a height of 1,397.5 feet at 9.317 seconds (neglecting air resistance). This illustrates the convenience of using variables. The MATLAB code reads much like our original equations did.
Tips on Defining Variables
- Variables in MATLAB are case-sensitive. That means that myVariable, myvariable, MyVariable and MYVARIABLE are all different variables and can all have different values.
- Variables may be defined by other variables. In that case, the righ-hand side is evaluated and then stored in the variable. For example:
a=5; % a is 1.
b = a+2; % b is 7.
a=1; % b is still 7, a is 1.
- Variables may be numbers or strings (characters). For example:
a=pi; % a is 3.14159265...
a = "hello"; % a is now "hello"
- Use a semicolon ; to terminate every MATLAB statement. Omitting the semicolon will result in the results being displayed in the command window. This is not good practice in general.
- To print out variables, use the Input/Output techniques provided by MATLAB.
- See this link for information on defining arrays (vectors & matrices).
Useful Commands
Often we want to see what variables we have defined in the MATLAB workspace. Or we may want to clear a variable. The commands in the following table illustrate several useful tools for managing variables.
Command | Description | Example (try these out) |
---|---|---|
who | Lists variables currently defined in MATLAB. | a = 5; b = 6; c = linspace(0,50,10);
who
|
whos | Similar to who, but gives additional information. | a = 5; b = 6; c = linspace(0,50,10);
whos
|
clear | Clear all variables defined. | a = 5; b = 6; c = linspace(0,50,10);
clear; % clears all variables
who; % displays nothing - no variables defined.
a=2; b=5; c=a+b;
clear a b; % only clears a and b. c is still here.
who; % tells us that c is defined.
|
clc | Clears the MATLAB workspace. Doesn't clear variables | clc
|
save | saves variables to a file that can be loaded later. | clear;
a=5; b=6; c=a+b*2;
save myVariables; % saves all variables to the file "myVariables.mat"
save bcVars b c; % saves b and c only to "bcVars.mat"
|
load | loads variables from a file | clear;
a=5; b=6; c=a+b*2;
save myVariables;
save bcVars b c;
clear;
load bcVars; % b and c are now defined.
who;
clear;
load myVariables; % a b and c are all defined.
who;
|
help | provides help on how to use a command | help clear;
help load;
help save;
|
Basic Operations
In the projectile example above we saw examples of using several basic operators in MATLAB. The following table summarizes the basic operators and gives simple examples of their usage.
Operator | Description | Examples |
---|---|---|
+ | Addition | 1 + 2 % displays 3
b = 1+2; % assigns 3 to the variable b.
a = cos(pi)+2.0; % a=1
|
- | Subtraction | 1 - 2 % displays -1
b = 1-2; % assigns -1 to the variable b.
a = sqrt(-4*b)+2.0; % a=4
|
* | Multiplication | 2.2*3.3 % displays 6.6
a = 2.2*3.3; % assigns 6.6 to a.
b = (pi/4); % assigns sqrt(2)/2 to b.
|
/ | Division | 6.6/2.2 % dispays 3.3
a = 6.6/2.2; % assigns 3.3 to a.
b = sqrt(a/pi)*exp(a);
|
^ | Power | 2^3 % displays 8
a = 2^3 + 243^0.2; % assigns 11 to a.
|
( ) | Parentheses | a = (2+5)*3; % assigns 21 to a
b = 2+5*3; % assigns 17 to b
c = 2*(a-10); % assigns 22 to c
|
NOTE: if you are using arrays, then the / and * operators have different behavior! See the page on array arithmetic for more information.
In addition, MATLAB has many built-in functions. Type help elfun at the MATLAB command prompt for a list. Some commonly used functions are given here:
Function | Description |
---|---|
cos | The cosine function |
sin | The sine function |
tan | The tangent function |
sqrt | The square-root, |
exp | The exponential function |
log10 | The base-10 log function, |
log | The natural log function, |
abs | The absolute value, |
M-Files
An M-file is a series of MATLAB commands that you save in a file. Then you can re-run them easily and make changes without re-entering everything again. Anything that can be done in the command window can also be done from an m-file. As an example, let's reconsider the projectile example discussed earlier. We had the following MATLAB commands that we entered in the command window:
y0 = 0.0; % initial height (feet)
v0 = 300; % initial velocity (feet/s)
vt = 0.0; % final velocity (feet/s)
a = -32.2; % gravitational acceleration (feet^2/s)
t = (vt-v0)/a; % time (s) when the bullet stops (maximum height)
yt = y0 + v0*t + a*t^2/2; % maximum height (feet).
Suppose that we wanted to change the initial velocity. We could re-enter everything again, or we could save these commands in a m-file. To use an m-file, follow these steps:
- Choose File→New→M-File.
- Enter the MATLAB commands just as you would in the command window and save the file. You may save it wherever you wish.
- Navigate to the directory where you saved the file. Do this one of two ways: Error creating thumbnail: Unable to save thumbnail to destination
- Type the directory in the location box in the top of the MATLAB command window (the current directory).
- Select the button to navigate to the directory where your m-file is saved.
- Now you can type the name of your m-file in the command window to run it. For example, if I named the file projectile.m, I would type at the command prompt. MATLAB will then execute all of the statements in the m-file as if you had entered them into the command window (although they will not be shown in the command window).
projectile
Step 3 may be ommitted if the directory is already set in MATLAB's path, as discussed in the following section.
MATLAB's Path
When you type a command in the MATLAB command window, MATLAB decides what to do based on the following:
- Look to see if a variable by that name exists. If so, use it.
- If no variables match, then MATLAB starts looking for m-files that match the command name. It does this by looking in its path.
If no variables and no m-files match the command, then MATLAB issues an error message.
- path
- A list of directories that MATLAB looks in to find m-files.
To set MATLAB's path, go to File→Set Path. You will see an image similar to the one at the right. Choose the Add Folder button and navigate to a folder containing m-files that you want to add to MATLAB's path. Then click Save. Now you don't have to have MATLAB running in the same directory where you saved your m-file.