The division works and returns adequate precision in result.

So your problem is just about visualization or exactly:

**string-representation** of floating-point numbers

## Formatting a decimal

You can use **string-formatting** for that.
For example in Python 3, use *f-strings*:

`twoFractionDigits = f"{result:.2f}"`

or `print(f"{result:.2f}")`

The trick does `.2f`

, a string **formatting literal** or *format specifier* that represents a floating-point number (`f`

) with two fractional digits after decimal-point (`.2`

).

See also:

Try on the Python-shell:

```
Python 3.6.9 (default, Dec 8 2021, 21:08:43)
[GCC 8.4.0] on linux
Type "help", "copyright", "credits" or "license" for more information.
>>> import math
>>> a=1.175 #value of a after some division
>>> result = math.floor(a*100)/100
>>> result
1.17
>>> print(result)
1.17
>>> a=25/5 #Now a is perfectly divisible
>>> result = math.floor(a*100)/100
>>> result
5.0
>>> print(result)
5.0
>>> print(f"{result:.2f}")
5.00
```

### Formatting a decimal as percentage

Similar you can represent the ratio as percentage:
`print(f"{result:.2f} %")`

prints:

5.00 %

A formatting **shortcut for percentage** can be:
`print(f"{25/100:.2%}")`

Which converts the result of `25/100 == 0.25`

to:

25.00%

Note: The formatting-literal `.2%`

automatically converts from ratio to percentage with 2 digits after the decimal-point and adds the percent-symbol.

### Formatting a decimal with specific *scale* (rounded or truncated ?)

Now the part without rounding-off, just truncation.
As example we can use the *repeating decimal*, e.g. `1/6`

which needs to be either *rounded* or *truncated* (cut-off) after a fixed number of fractional digits - the *scale* (in contrast to *precision*).

```
>>> print(f"{1/6:.2}")
0.17
>>> print(f"{1/6:.2%}")
16.67%
```

Note how the formatted string is not truncated (to `0.16`

) but rounded (to `0.17`

). Here the *scale* was specified inside formatting-literal as `2`

(after the dot).

See also:

### Formatting many decimals in fixed width (leading spaces)

Another example is to print multiple decimals, like in a column as right-aligned, so you can easily compare them.

Then use string-formatting literal `6.2f`

to add leading spaces (here a fixed-width of 6):

```
>>> print(f"{result:6.2f}")
5.00
>>> print(f"{100/25*100:6.2f}")
400.00
>>> print(f"{25/100*100:6.2f}")
25.00
```

### See also

All the formatting-literals demonstrated here can also be applied using

- old-style
*%-formatting* (also known as "Modulo string formatting") which was inherited from `printf`

method of C language. Benefit: This way is also compatible with Python before 3.6).
- new-style
`.format`

method on strings (introduced with Python 3)

See theherk's answer which demonstrates those alternatives.

Learn more about string-formatting in Python: