# MATLAB exponential - how to represent e^(-t^2)?

I am a beginner in MATLAB, and i need to represent e^(-t^2).

I know that, for example, to represent e^x i use exp(x), and i have tried the following

1) tp=t^2; / tp=t*t; x=exp(-tp);

2) x=exp(-t^2);

3) x=exp(-(t*t));

4) x=exp(-t)*exp(-t);

What is the correct way to do it? Thank you!

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Is `t` a scalar or a matrix? – Tim Mar 6 '11 at 12:44
no. 4 (`x=exp(-t)*exp(-t);`) is mathematically wrong. – Ilya Melamed Mar 6 '11 at 12:56
exp(-t)*exp(-t) is NOT equivalent to exp(-t^2), it is equivalent to exp(-2*t), a rather different number. – user85109 Mar 6 '11 at 16:19

If `t` is a matrix, you need to use the element-wise multiplication or exponentiation. Note the dot.

``````x = exp( -t.^2 )
``````

or

``````x = exp( -t.*t )
``````
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solved. thank you! – user573382 Mar 6 '11 at 13:03

All the 3 first ways are identical. You have make sure that if `t` is a matrix you add `.` before using multiplication or the power.

for matrix:

``````t= [1 2 3;2 3 4;3 4 5];
tp=t.*t;
x=exp(-(t.^2));
y=exp(-(t.*t));
z=exp(-(tp));
``````

gives the results:

``````x =

0.3679    0.0183    0.0001
0.0183    0.0001    0.0000
0.0001    0.0000    0.0000

y =

0.3679    0.0183    0.0001
0.0183    0.0001    0.0000
0.0001    0.0000    0.0000

z=

0.3679    0.0183    0.0001
0.0183    0.0001    0.0000
0.0001    0.0000    0.0000
``````

And using a scalar:

``````p=3;
pp=p^2;
x=exp(-(p^2));
y=exp(-(p*p));
z=exp(-pp);
``````

gives the results:

``````x =

1.2341e-004

y =

1.2341e-004

z =

1.2341e-004
``````
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