As of this writing, only one of the other answers correctly handles DST (daylight saving time) transitions. Here are the results on a system located in California:

```
1/1/2013- 3/10/2013- 11/3/2013-
User Formula 2/1/2013 3/11/2013 11/4/2013 Result
--------- --------------------------- -------- --------- --------- ---------
Miles (d2 - d1) / N 31 0.9583333 1.0416666 Incorrect
some Math.floor((d2 - d1) / N) 31 0 1 Incorrect
fuentesjr Math.round((d2 - d1) / N) 31 1 1 Correct
toloco Math.ceiling((d2 - d1) / N) 31 1 2 Incorrect
N = 86400000
```

Although `Math.round`

returns the correct results, I think it's somewhat clunky. Instead, by explicitly accounting for changes to the UTC offset when DST begins or ends, we can use exact arithmetic:

```
function treatAsUTC(date) {
var result = new Date(date);
result.setMinutes(result.getMinutes() - result.getTimezoneOffset());
return result;
}
function daysBetween(startDate, endDate) {
var millisecondsPerDay = 24 * 60 * 60 * 1000;
return (treatAsUTC(endDate) - treatAsUTC(startDate)) / millisecondsPerDay;
}
alert(daysBetween($('#first').val(), $('#second').val()));
```

## Explanation

JavaScript date calculations are tricky because `Date`

objects store times internally in UTC, not local time. For example, 3/10/2013 12:00Â AM Pacific Standard Time (UTC-08:00) is stored as 3/10/2013 8:00Â AM UTC, and 3/11/2013 12:00Â AM Pacific Daylight Time (UTC-07:00) is stored as 3/11/2013 7:00Â AM UTC. On this day, midnight to midnight local time is only 23 hours in UTC!

Although a day in local time can have more or less than 24 hours, a day in UTC is always exactly 24 hours.^{1} The `daysBetween`

method shown above takes advantage of this fact by first calling `treatAsUTC`

to adjust both local times to midnight UTC, before subtracting and dividing.

^{1. JavaScript ignores leap seconds.}