Minimum requirements on a function to prove injectivity. I(x): x is an injective function.

kadirsmr9d

kadirsmr9d

Answered question

2022-09-04

Minimum requirements on a function to prove injectivity
I have one predicate and two finite sets A and B.
I(x): x is an injective function.
From these I construct the quantified statement:
x U:[ I(x)]
U = { f is a function | f: A B}
What assumptions do I need to make on each of the sets to make each of the quantified statements true?
The answers in my book says the first statement is true when | A | = 0 , | A | = 1 , o r   | B | = 0, though I'm not sure I follow the logic.
If | A | = 0 then I can see that the statement is true in regards to the only function being the empty function which I've read is injective (though haven´t understood exactly why yet).
But if | A | = 1, how can I assume f(x) will have an inverse without making any assumptions about B?
Also if | B | = 0, is this statement just vacuously true with regards to injectivity?

Answer & Explanation

detegerex

detegerex

Beginner2022-09-05Added 16 answers

Step 1
A function f is injective if x y f ( x ) f ( y ).
Step 2
So if dom ( f ) = A and | A | 1, then f must always be injective because you can never have x , y A with x y so the implication is vacuously true.

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