Exceptions have types, and what this allows is for you to look up the type and quickly categorize the problem. From the documentation:

`ArithmeticException`

:
Thrown when an exceptional arithmetic condition has occurred. For example, an integer "divide by zero" throws an instance of this class.

Moreover, most exceptions are constructed with a message to help you even further figure out what happened.

```
try {
int i = 0 / 0;
} catch (ArithmeticException e) {
e.printStackTrace();
}
```

This prints:

```
java.lang.ArithmeticException: / by zero
at [filename:line number]
```

**But how did this happen?**

Java, like many other programming languages, distinguishes between integer division and floating point division.

The binary `/`

operator performs division, producing the quotient of its operands. The left-hand operand is the dividend and the right-hand operand is the divisor. Integer division rounds toward 0. [...] if the value of the divisor in an integer division is 0, then an `ArithmeticException`

is thrown.

The following may surprise you if you're not familiar with integer division:

```
System.out.println(1/2); // prints "0"
```

What happens here is that since both the dividend and the divisor are `int`

, the operation is an integer division, whose result is rounded to an `int`

. Remember that an `int`

can only contain whole number (of limited range, some 4 billion numbers approximately).

You can specify that you need a floating point division by making at least one of the operands a floating point number.

```
System.out.println(1/2.0); // prints "0.5"
System.out.println(1D/2); // prints "0.5"
```

`D`

is a special suffix for numeric literal to specify that it's a `double`

-precision value. There's also `L`

for `long`

(64-bit integer).

A `double`

value needs to be stored in a `double`

variable.

```
double v = 1D / 2; // v == 0.5
int i = 1D / 2; // DOESN'T COMPILE!!! Explicit cast needed!
```

Note that which division is performed doesn't have anything to do with what type it'll eventually go to. It only depends on what type the dividend and divisor are.

```
double v = 1 / 2; // v == 0.0 (!!!)
```

You should also note that `double`

too, is a limited precision number.

```
System.out.println(.2D + .7D - .9D); // prints "-1.1102230246251565E-16"
```

**But what about my code?**

So now, let's focus on what happened with your code:

```
timeTaken = stopTime - startTime;
timeInSecs = ((timeTaken/1000));
speed = 45/timeInSecs;
```

More than likely what happened is that `timeTaken`

is declared as a `long`

. Therefore `timeTaken/1000`

results in integer division. If `timeTaken < 1000`

, the result of the division is `0`

.

At this point, it doesn't matter if `timeInSecs`

is a `double`

or a `float`

, because the integer division has already been performed. This means that `timeInSecs`

would be either `0`

or `0.0`

, depending on its type.

From the error you get, though, one can determine that `timeInSecs`

is likely to be an integer type. Otherwise, `45/timeInSecs`

would result in a floating point division that results in `Infinity`

(a special `double`

value) instead of throwing `ArithmeticException`

.

**So how do we fix this?**

We can fix this by declaring the variables as follows:

```
long timeTaken;
double timeInSecs;
double speed;
```

And then performing the calculation as follows (note that `1000`

is now a `double`

value).

```
timeTaken = stopTime - startTime;
timeInSecs = timeTaken/1000D;
speed = 45D/timeInSecs; // D is not necessary here, but it's good for clarity
```

### See also