Showing that a relation is an equivalence relation Let &#x2208;<!-- ∈ --> <mrow class="MJX-T

cazinskup3

cazinskup3

Answered question

2022-06-13

Showing that a relation is an equivalence relation
Let N and n R × R be defined by: x n y d f x n y n = n x n y. Show that n is an equivalence relation.
And here is my take on it (I apologize in advance for any notation mistakes, I'm still not quite good at it.):
Proof Reflexivity: Let x R and n N ; to show: x n x
x n x d f x n x n = n x n x 0 = 0 n is reflexive
Proof Symmetry: Let x R and n N ; to show: x n y y n x
x n y d f x n y n = n x n y y n x ( x n y n ) = n x + n y y x
So, the assumption made is wrong, that is, the relation is not symmetric, and therefore not an equivalence relation.
However, I'm unsure whether my proof is valid or not, as the wording of the question, and the following question, that requires ~ to be an equivalence relation, makes me believe it is in fact an equivalence relation.

Answer & Explanation

Rebekah Zimmerman

Rebekah Zimmerman

Beginner2022-06-14Added 32 answers

Step 1
Here's a general fact you can show:
Let f : A B be a function and define f on A by x f y f ( x ) = f ( y ) ..
I encourage you to prove this is always an equivalence relation on your own and let me know if you face any issues with this.
Step 2
Once you have done that, note that in your question, the relation is defined by x n y x n y n = n x n y .
Note that the last equation can be rewritten as x n n x = y n n y ..
Thus, defining f n : R R by f n ( x ) = x n n x and using the earlier result finishes the job.

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