Multiples of Divisors obey Distributive Law/Proof 1

Proof
Let the (natural) number $AB$ be an aliquant part of the (natural) number $C$.

Let the (natural) number $DE$ be the same aliquant part of another (natural) number $F$ that $AB$ is of $C$.

We need to show that $AB + DE$ is the same aliquant part of $C + F$.


 * Euclid-VII-6.png

We have that whatever aliquant part $AB$ is of $C$, $DE$ is also the same aliquant part as $F$.

It follows that as many aliquant parts of $C$ as there are in $AB$, so many aliquant parts of $F$ are there also in $DE$.

Let $AB$ be divided into the aliquant parts of $C$, namely $AG, GB$, and $DE$ into the aliquant parts of $F$, namely $DH, HE$.

Thus the multitude of $AG, GB$ will be equal to the multitude of $DH, HE$.

We have that whatever aliquot part $AG$ is of $C$, the same aliquot part is $DH$ of $F$ also.

Therefore, from, whatever aliquot part $AG$ is of $C$, the same aliquot part also is $AG + DH$ of $C + F$ also.

For the same reason, whatever aliquot part $GB$ is of $C$, the same aliquot part also is $GB + HE$ of $C + F$.

Therefore whatever aliquant part $AB$ is of $C$, the same aliquant part also is $AB + DE$ of the $C + F$