A division of two `int`

numbers returns an `int`

, truncating any decimal points. This is generally true for other data types as well: arithmetic operations don't change the type of their operands.

To enforce a certain return type, you must therefore convert the operands appropriately. In your particular case, it's actually sufficient to convert one of the operators to `double`

: that way, C# will perform the conversion for the other operand automatically.

You've got the choice: You can explicitly convert either operand. However, since the second operand is a *literal*, it's better just to make that literal the correct type directly.

This can either be done using a type suffix (`d`

in the case of `double`

) or to write a decimal point behind it. The latter way is generally preferred. in your case:

```
(int)Math.Ceiling(System.DateTime.DaysInMonth(2009, 1) / 7.0);
```

Notice that this decimal point notation always yields a `double`

. To make a `float`

, you need to use its type suffix: `7f`

.

This behaviour of the fundamental operators is the same for nearly all languages out there, by the way. One notable exception: VB, where the division operator generally yields a `Double`

. There's a special integer division operator (`\`

) if that conversion is not desired. Another exception concerns C++ in a weird way: the difference between two pointers of the same type is a `ptrdiff_t`

. This makes sense but it breaks the schema that an operator always yields the same type as its operands. In particular, subtracting two `unsigned int`

does *not* yield a `signed int`

.