5) Find the least integer n such that

Answered question

2022-05-16

5) Find the least integer n such that f (x) is O(n^x) for each of these functions.

c. f(x) = (x4 + x2 + 1)/(x3 + 1)

Answer & Explanation

alenahelenash

alenahelenash

Expert2023-05-14Added 556 answers

To find the least integer n such that f(x) is O(nx) for the given function f(x)=x4+x2+1x3+1, we need to analyze the growth rate of f(x) as x approaches infinity.
Let's simplify the expression of f(x) first:
f(x)=x4+x2+1x3+1
As x approaches infinity, the highest power term in the numerator and denominator dominates the expression. In this case, the highest power terms are x4 and x3, respectively.
Dividing the numerator and denominator by x3, we get:
f(x)=x4x3+x2x3+1x3x3x3+1x3
Simplifying further:
f(x)=x+1x+1x31+1x3
As x approaches infinity, the terms 1x and 1x3 become negligible compared to x and 1, respectively.
Therefore, in the limit as x approaches infinity, f(x) simplifies to:
f(x)x1=x
Now, we can observe that f(x) grows at a rate of O(x) as x approaches infinity.
To find the least integer n such that f(x) is O(nx), we need to find the smallest possible value of n such that x is always bounded above by nx.
In this case, we can see that n=2 is the least integer that satisfies this condition. For any x>0, x is always less than 2x.
Hence, the least integer n such that f(x) is O(nx) for the given function is 2.

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