The problem will be that you cannot represent 0.575 exactly as a binary floating point number (eg a double). Though I don't know exactly it seems that the representation closest is probably just a bit lower and so when rounding it uses the true representation and rounds down.

If you want to avoid this problem then use a more appropriate data type. `decimal`

will do what you want:

```
Math.Round(0.575M, 2, MidpointRounding.AwayFromZero)
```

Result: `0.58`

The reason that 0.75 does the right thing is that it is easy to represent in binary floating point since it is simple 1/2 + 1/4 (ie 2^-1 +2^-2). In general any finite sum of powers of two can be represented in binary floating point. Exceptions are when your powers of 2 span too great a range (eg 2^100+2 is not exactly representable).

Edit to add:

Formatting doubles for output in C# might be of interest in terms of understanding why its so hard to understand that 0.575 is not really 0.575. The DoubleConverter in the accepted answer will show that 0.575 as an Exact String is `0.5749999999999999555910790149937383830547332763671875`

You can see from this why rounding give 0.57.

`.575`

to two decimal places away from zero will give`.58`

but this is not the observed result. Its to do with floating poitn representations in this case. – Chris Aug 24 '12 at 16:33