Computers use "binary numbers" to store information. Integers can be stored exactly, but fractional numbers are usually stored as "floating-point numbers".

There are numbers that are easy to write in base-10 that cannot be exactly represented in binary floating-point format, and 0.1 is one of those numbers.

It is possible to store numbers exactly, and work with the numbers exactly. For example, the number 0.1 can be stored as `1 / 10`

, in other words stored as a numerator (1) and a denominator (10), with the understanding that the numerator is divided by the denominator. Then a properly-written math library can work with these fractions and do math for you. But it is much, much slower than just using floating-point numbers, so it's not that often used. (And I think in banking, they usually just use integers instead of floating-point to store money; $1.23 can be stored as the number 123, with an implicit two decimal places. When dealing in money, floating point isn't exact enough!)