Supplement to Frege's Logic, Theorem, and Foundations for Arithmetic
A More Complex Example
If given the premise that
1+22=5
one can prove that
1 ∈ ε[λz z+22 =5]
For it follows from our premise (by λ-Abstraction) that:
[λz z+22=5]1
Independently, by the logic of identity, we know:
ε[λz z+22=5] = ε[λz z+22=5]
So we may conjoin this fact and the result of λ-Abstraction to produce:
ε[λz z+22=5] = ε[λz z+22=5] & [λz z+22=5]1
Then, by existential generalization on the concept [λz z+22=5], it follows that:
∃G[ε[λz z+22=5] = εG & G1]
And, finally, By the definition of membership, we obtain:
1 ∈ ε[λz z+22=5],
which is what we were trying to prove.
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