## Enter Monomial Parameters:

## Evaluate the monomial division:

Simplify monomial term number 1:

convert5

No simplification is needed

Simplify monomial term number 2:

9todecimal

No simplification is needed

## Our modified expression is:

## Check to see if we can simplify constants:

No GCF exists, so we continue, the constants stay the same in the numerator and denominator.

## Simplify a:

We only have a a term in the denominator, so we leave this where it is

## Simplify c:

We have the same c

^{1} term in the numerator and denominator, so they cancel each other out

## Simplify d:

We only have a d term in the denominator, so we leave this where it is

## Simplify e:

We have the same e

^{1} term in the numerator and denominator, so they cancel each other out

## Simplify i:

We only have a i term in the denominator, so we leave this where it is

## Simplify l:

We only have a l term in the denominator, so we leave this where it is

## Simplify m:

We only have a m term in the denominator, so we leave this where it is

## Simplify n:

We only have a n term in the numerator, so we leave this where it is

## Simplify o:

We have the same o

^{1} term in the numerator and denominator, so they cancel each other out

## Simplify r:

We only have a r term in the numerator, so we leave this where it is

## Simplify t:

We only have a t term in the numerator, so we leave this where it is

## Simplify t:

We only have a t term in the denominator, so we leave this where it is

## Simplify t5:

We only have a t5 term in the numerator, so we leave this where it is

## Simplify v:

We only have a v term in the numerator, so we leave this where it is

## Build our final answer: