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Eva Benson

Eva Benson

Answered question

2022-06-01

Prove that n N and n 3, then 2 n < 3 n + 2.
Prove that n N and n 3, then 2 n < 3 n + 2
Need to prove this sentence is true. In this problem, I believe I have to use the exhaustion demo technique. Because there is a specific number of cases, in this case between natural 0 and 3.I've tried to solve it, I came to a conclusion, and apparently it's correct. But I would like someone to look at the strategy used for the resolution and if I am correct about my conclusion.
My resolution method:
Create a table with possible values for n and compare the sentence
n 2 n < 3 n + 2 result 0 1 < 2 true 1 2 < 5 true 2 4 < 8 true 3 8 < 11 true
Thus, by exhaustion, it is possible to prove that the theorem is true. For any and all n 0 and 3, it will always be less than 2 n < 3 n + 2.

Answer & Explanation

Chandler Hurley

Chandler Hurley

Beginner2022-06-02Added 4 answers

Step 1
Although your statement (to be proven) is self-explanatory, a way of thinking is given below, which can help to solve such a task in general:
We have 2 n < 3 n + 2, which I can rewrite as 2 n 11 < 3 n 9.
Step 2
Your condition n 3 is equal to n 3 0 and respectively to 3 n 9 0 leading to:
2 n 11 < 3 n 9 0
Indeed the largest possible n that satisfies 2 n 11 0 is 3.

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