I was using BigDecimal, but I am still getting different results for two different (mathematically identical) expressions:

First Expression: PI - (10^(-14)/PI)

Second Expression: (PI^2 - 10^(-14))/PI

To put it more simply, here is the equation:

```
package set1;
import java.math.BigDecimal;
import java.math.RoundingMode;
public class FloatingLaws {
final static BigDecimal PI = BigDecimal.valueOf(Math.PI);
public static void main(String[] args) {
System.out.println(firstExpression());
System.out.println(secondExpression());
}
private static BigDecimal secondExpression() {
return PI.subtract((BigDecimal.valueOf(Math.pow(10, -14)).divide(PI,50,RoundingMode.CEILING)));
}
private static BigDecimal firstExpression() {
return (PI.multiply(PI).subtract(BigDecimal.valueOf(Math.pow(10, -14)))).divide(PI, 50,RoundingMode.CEILING);
}
}
```

After executing this code, no matter how big is rounding, last digit is always different. In my case I get these two results:

```
3.14159265358978981690113816209304300915191180404867
3.14159265358978981690113816209304300915191180404866
```

My question is why is this happening and is it solvable?

`BigDecimal`

, but I see a lot of "rounding mode" in your code. Roundingin the middleof a calculation is never a good idea (in real math where precision isn't limited by memory) because you aren't going to get an exact answer. – Arc676 Feb 17 '16 at 9:42