The reason why `float temp = b/a;`

gives 0 while `float temp = (float)b/a;`

gives 0.5 is that the compiler determines the output type of the division operation based upon the types of the operands, not the destination storage type. Put simply:

```
int / int = int
float / int = float
int / float = float
float / float = float
```

So when you do `float temp = b/a;`

you're doing in integer divide of `b`

and `a`

, and then storing the resulting integer (0 in your example) into a variable of type `float`

. In essence, by the time the value is converted to floating-point you have already lost the information you are looking for (assuming you wanted to do a floating-point divide), and the conversion is not going to bring it back.

In order to get the result you want (again, assuming that you want to do a floating-point divide), you need to cast at least one of the operands to `float`

*before* you divide.