```
long a2 = 100L * 1024 * 1024 * 1024;
```

In this operation however at least one operand is `long`

. hence the operation is carried out using 64-bit precision, and the result of the numerical operator is of type `long`

. The other non-long operand are
widened to type `long`

by *numeric promotion* and resulted value gets stored to to variable `a2`

.

```
long a1 = 100 * 1024 * 1024 * 1024;
```

The constant expression of plain integer, the result of the expression was computed as a type `int`

. The computed value however too large to fit in an integer and hence overflowed, resulting in `0`

and gets stored to `a1`

variable.

**Edit: As is asked in the following comment:**

Why doesn't it go negative?

Because while in *integer computation* the second computation is equivalent to `25 * 2^32`

where `^`

has the power meaning and `2^32`

integer value is `0`

. However, to explain why it's value is `0`

: In binary:

```
100 * 1024 * 1024 * 1024 == 25 * 2^32;
Integer.MAX_VALUE = 2 ^ 31 -1 = 0 11111111 11111111 11111111 1111111
Integer.MAX_VALUE + 1 = 2 ^ 31 = 1 00000000 00000000 00000000 0000000
```

`2 ^ 31`

is a negative integer(`-2147483648`

) as the sign bit is `1`

And hence `2 ^ 32`

is just a multiplication of `2`

to `2 ^ 31`

: a left shift and the sign bit will become `0`

and hence the result is `0`

.

Check out the `java language specification: 4.2.2: Integer operation`

for details.

`100`

and not`100L`

, Hence integer multiplication and resulted > integer capacity and resulted in zero, called as integer overflow. – sᴜʀᴇsʜ ᴀᴛᴛᴀ Dec 3 '13 at 14:19