In the following example, given ∈ > 0, find a δ > 0 such that whenever, |x – a| < δ, we must have |f(x) – l| < ∈. limx→1(x2+x+1) = 3

Question

In the following example, given ∈ > 0, find a δ > 0 such that whenever, |x – a| < δ, we must have |f(x) – l| < ∈.

`lim_(x -> 1) (x^2 + x + 1)` = 3

Sum

Solution

We have to find some δ > 0 such that

`lim_(x -> 1) (x^2 + x + 1)` = 3

Here a = 1, l = 3 and f(x) = x² + x + 1

Consider ∈ > 0 and |f(x) – l| < ∈

∴ |x² + x + 1 – 3| < ∈

∴ |x² + x – 2| < ∈

∴ |(x + 2) (x – 1)| < ∈ ...(i)

We have to get rid of the factor |x + 2|

As |x – 1| < δ

– δ < x – 1 < δ

∴ 1 – δ < x < 1 + δ

Since δ can be assumed as very small, let us choose δ < 1

∴ 0 < x < 2

∴ 2 < x + 2 < 4

∴ |x + 2| < 4

∴ |(x + 2) (x – 1)| < 5| x – 1| ...(ii)

From (i) and (ii), we get

4|x – 1| < ∈

∴ `|x - 1| < ∈/4`

If δ = `∈/4`, |x – 1| < δ ⇒ |x² + x – 2| < ∈

∴ We choose δ = `min{∈/4, 1}` then

|x – 1| < δ ⇒ |f(x) – 3| < ∈

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Concept of Limits

Is there an error in this question or solution?

Q IV. (4)Q IV. (3)Q I. 1.

Chapter 7: Limits - Exercise 7.1 [Page 139]

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Balbharati Mathematics and Statistics 2 (Arts and Science) [English] Standard 11 Maharashtra State Board

Chapter 7 Limits
Exercise 7.1 | Q IV. (4) | Page 139

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