System.out.println((26.55f/3f));
or
System.out.println((float)( (float)26.55 / (float)3.0 ));
etc.
returns the result 8.849999. not 8.85 as it should.
Can anyone explain this or should we all avoid using floats?
or
etc. returns the result 8.849999. not 8.85 as it should. Can anyone explain this or should we all avoid using floats? 


What Every Programmer Should Know About FloatingPoint Arithmetic:
Indepth explanations at the linkedto site 


Explaining is easy: floating point is a binary format and so can only represent exactly values that are an integer multiple of If you need exact representation (e.g. your code is about accounting and money, where every fraction of a cent matters), then you must indeed avoid floats in favor of other types that do guarantee exact representation of the values you need (depending on your application, for example, just doing all accounting in terms of integer numbers of cents might suffice). Floats (when used appropriately and advisedly!) are perfectly fine for engineering and scientific computations, where the input values are never "infinitely precise" in any case and therefore the computationally cumbersome burden of exact representation is absolutely not worth carrying. 


Take a look at Wikipedia's article on Floating Point, specifically the Accuracy Problems section.
The article features a couple examples that should provide more clarity. 


Well, we should all avoid using floats wherever realistic, but that's a story for another day. The issue is that floating point numbers cannot exactly represent most numbers we think of as trivial in presentation. 8.850000 probably cannot be represented exactly by a float; and possibly not by a double either. This is because they aren't actually decimal numbers; but a binary representation. 

