Comparing floating point numbers(double, float) in .net directly for equality is not safe. A double value in a variable may change over time by very small amount. For example, if you set the variable num(double) to 0.2 of an object, after some time that object waited in the memory, you may find that num became 0.1999999999999. So num == 0.2 will be false in this case. My solution to this problem is to create a property to round the number:

```
double Num
{
get{ return Math.Round(num, 1); }
}
```

After the get of Num is called and result is returned, can this returned number change to 0.19 again at the time of comparison(Num == 0.2)? It is not likely but is it guaranteed?

doesn't changefrom 0.2 to 0.19999999999 (i.e., it doesn't leak or bleed or lose a few bits over time). Fact is that 0.2 simply can't be represented exactly in a binary floating point variable, so it is stored as the closest possible value the double or float can represent. That is why you get something like 0.199999999999 or 0.20000000001.