Question

How can i calculate interference of waves?

Answer 1

This is an extremely vague question. I suggest you start by taking a look at the hyperphysics page, as this is probably the level of detail you might need.

The wiki page is actually pretty well detailed on derivations if you require them.

Answer 2

See below . This should get you started.

Explanation:

Start with two waves of equal amplitude (A) , equal frequency `w`, ( expressed in radians { `w=2pif`} but with a phase difference `phi`

`x_1= A coswt`
`x_2= A cos(wt + phi)`

Rememeber this identity:

`cos(x)+cos(y)=2cos(( x+y)/2)cos((x-y)/2)`

If you add above two waves: resultant wave `x_r` is:

`x_r = x_1 + x_2`
`x_r = A coswt + A cos(wt + phi)`, which can be simplified to

`x_r = 2A cos(phi/2)cos(wt + phi/2)`

Now you can have constructive interference or destructive interference .

For constructive, in above equation, `cos(phi/2)=1`
which gives values for `phi = 0,2pi, 4pi etc`

For distructive, in above equation, `cos(phi/2)=0`
which gives values for `phi = pi,3pi, 5pi etc`

You can easily plot these values now.

If the frequencies are different, but no pase difference,you would have :

`x_1= A cosw_1t`
`x_2= A cos(w_2t)`

The resultant superposed wave would be given by this identity:

`x_r = 2A cos((w_1 +w_2)/2)cos((w_1 -w_2)/2)`

The result is a wave which is the product of two waves which are the sum and difference of the original waves, so you get something called beats.

If you want an interactive demo check this excellent site:

https://academo.org/demos/amplitude-modulation/