If you want to do mathematical operations with large numerical values without over flowing, try the BigDecimal class.

Let's say I want to multiply

200,000,000 * 2,000,000,000,000,000,000L * 20,000,000

```
int testValue = 200000000;
System.out.println("After Standard Multiplication = " +
testValue *
2000000000000000000L *
20000000);
```

The value of the operation will be -4176287866323730432, which is incorrect.

By using the BigDecimal class you can eliminate the dropped bits and get the correct result.

```
int testValue = 200000000;
System.out.println("After BigDecimal Multiplication = " +
decimalValue.multiply(
BigDecimal.valueOf(2000000000000000000L).multiply(
BigDecimal.valueOf(testValue))));
```

After using the BigDecimal, the multiplication returns the correct result which is

80000000000000000000000000000000000

`(long)24*1000*3600*25`

you convert the result, which is`-2134967296`

, into a long, which is`-2134967296L`

. You could indeed use (long) instead of L but with additional parentheses:`((long)24)*1000*3600*25`

. However, L is exactly made for this case, and it's even possible that the compiler generates different byte code: 24L is a literal of type long, while (long)24 is a literal of type int which first needs to be converted to a long (yet hopefully the compiler optimizes that). – chiccodoro Oct 18 '10 at 11:16