I would definitely read the article to which Richard points. But if you need a simpler explanation, I hope this helps:

Basically, as you said, there is 1 sign bit, 8 bits for exponent, and 23 for fraction.
Then, using this equation (from Wikipedia)

`N = (1 - 2s) * 2^(x-127) * (1 + m*2^-23) `

where `s`

is the sign bit, `x`

is the exponent (minus the 127 bias), and `m`

is the fractional part treated as a whole number (the equation above transforms the whole number into the appropriate fraction value).

Note, that the exponent value of `0xFF`

is reserved to represent infinity. So the largest exponent of a real value is `0xFE`

.

you see that the maximum value is

`N = (1 - 2*0) * 2^(254-127) * (1 + (2^23 - 1) * 2^-23)`

`N = 1 * 2^127 * 1.999999`

`N = 3.4 x 10^34`

The minimum value would be the same but with the sign bit set, which would simply negate the value to give you `-3.4 X 10^34`

.

Q.E.D.