Generally speaking, bit shifting (`>> , <<`

) allows us to divide / multiply by `^2`

Example :

```
9 (base 10): 00000000000000000000000000001001 (base 2)
--------------------------------
9 >> 2 (base 10): 00000000000000000000000000000010 (base 2) = 2 (base 10)
```

For **negative** numbers :

Likewise, `-9 >> 2`

yields `-3`

, because the sign is preserved:

```
-9 (base 10): 11111111111111111111111111110111 (base 2)
--------------------------------
-9 >> 2 (base 10): 11111111111111111111111111111101 (base 2) = -3 (base 10)
```

But looking at `>>>`

which acts the same for positive numbers, but behaves differently for negative numbers :

Zerobits are shifted in from the left

I can't find any reason / usage for shifting `0`

from the left ( which makes the whole number positive) from the left :

```
-9 (base 10): 11111111111111111111111111110111 (base 2)
--------------------------------
-9 >>> 2 (base 10): 00111111111111111111111111111101 (base 2) = 1073741821 (base 10)
```

**Question :**

In what scenarios should I use `>>>`

? I don't understand why should I ever want to pad zeros from the left and mess my negative number.

`>>>`

operator,`>>`

preserves sign but`>>>`

nothowit works which I already know that. but in what scenarios I should use it ? I dont see any math operation with shifting those bits to the right and add left padding zeros. I mean , If I told you to divide a number by using bitwise operations - you would choose`>>`

but when would you choose`>>>`

?`>>>`

sometime we use in programming to for example I used here in my answer`11111111111111111111111111110111`

. I may want to use asunsigned int`0xfffffff7`

and do the right shift todivideit.5more comments