Proof: Divide Numerators

Let's prove the following theorem:

Proof:

Proof Table

#	Claim	Reason
1	a / c = a ⋅ (1 / c)	a / c = a ⋅ (1 / c) (Division is Multiplication by Inverse)
2	b / c = b ⋅ (1 / c)	b / c = b ⋅ (1 / c) (Division is Multiplication by Inverse)
3	a ⋅ (1 / c) = b ⋅ (1 / c)	if a / c = b / c and a / c = a ⋅ (1 / c) and b / c = b ⋅ (1 / c), then a ⋅ (1 / c) = b ⋅ (1 / c) (Transitive Property Application 2)
4	(a ⋅ (1 / c)) ⋅ c = (b ⋅ (1 / c)) ⋅ c	if a ⋅ (1 / c) = b ⋅ (1 / c), then (a ⋅ (1 / c)) ⋅ c = (b ⋅ (1 / c)) ⋅ c (Multiplicative Property of Equality)
5	(a ⋅ (1 / c)) ⋅ c = a	(a ⋅ (1 / c)) ⋅ c = a (multiply_by_one)
6	(b ⋅ (1 / c)) ⋅ c = b	(b ⋅ (1 / c)) ⋅ c = b (multiply_by_one)
7	a = b	if (a ⋅ (1 / c)) ⋅ c = (b ⋅ (1 / c)) ⋅ c and (a ⋅ (1 / c)) ⋅ c = a and (b ⋅ (1 / c)) ⋅ c = b, then a = b (Transitive Property Application 2)

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