I am trying to get a good understanding of Java's primitive data types. I already got a good overview and I understand how signed integer values are stored in Java, and how to tell/calculate the range of a byte-, short-, integer- or long-data type.

So, when looking at the Java data type int I know that it is a 32 bit signed value, thus I can tell exactly how many different "states" a int-type can store and what the range of that datatype is (i.e. 2^32 different states, resulting in a range from -2^31 through +(2^31)-1 or roughly -2e+9 through +2e+9).

When looking at the data type float, however, I need some help. I understand that Java's float data type is a 32 bit type (just like int), thus I would assume that it can also store a total of 2^32 different states. However, when I look at the numbers given in this table (http://www.javacamp.org/javaI/primitiveTypes.html) I don't understand how this data type can store floating point numbers in the range from roughly -3e+38 through 3e+38 (which is already a much wider range than what int can cover) PLUS all the single-precision floating point decimals in between - with just 32 bit.

Can any one please explain how floating point numbers are stored and why it "looks like" it can store more information than int within the same number of bits (which feels pretty much impossible to me)? Maybe you can point me to a good read or show me where I made a logical mistake.