Module 5 : Linear and Quadratic Approximations, Error Estimates, Taylor's Theorem, Newton and Picard Methods

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Module 5 : Linear and Quadratic Approximations, Error Estimates, Taylor's Theorem, Newton and Picard Methods Lecture 14 : Taylor's Theorem [Section 141] Objectives In this section you will learn the following : Taylor's theorem and its applications 141 Taylor 's Theorem and its applications In previous section we used, the tangent line, a polynomial of degree one in to approximate a given function for near One can try to approximate the function by a higher degree polynomial, hoping that the polynomial of higher degree will give a better approximation to for near To analyze this, we need a generalization of the extended mean value theorem: 1411Theorem (Taylor's Theorem): Then, for some The above expression is also known as the Taylor 's formula for around

Proof: We assume the proof The interested reader may refer a book on advanced calculus 1412Definition: Let be as in theorem 1411 (i) The polynomial is called the nth degree Taylor polynomial of around (ii) The term is called the -Remainder term of the Taylor 's formula for around (iii) In case, we say that has Taylor series around and write it as 1413Example: (i) Let Then Thus for any,

(ii) Let Then, for, Thus, for Taylor polynomial of around is given by (iii) Let be a polynomial of degree : Then Thus, for, For example, for Thus, for 1414Note: For, the Taylor polynomial for is nothing but the linear approximation For a function, which is times differentiable in, we can use the degree Taylor 's polynomial to approximate in a small interval around We analyze this for in the next section Thus, for,

For example, for Thus, for 1414Note: For, the Taylor polynomial for is nothing but the linear approximation For a function, which is times differentiable in, we can use the degree Taylor 's polynomial to approximate in a small interval around We analyze this for in the next section PRACTICE EXERCISES 1 Find the Taylor polynomial of around, that is, when and is as below: (i) (ii) (iii) (iv) (v) (vi) 2 Show that for all, (i) (ii) (iii) 3 Let denote the Taylor 's polynomial of order for at Prove the following: (i) (ii) (iii)

PRACTICE EXERCISES 4 Let be functions having derivatives of order at such that, where is a polynomial of degree If as, show that 5 Using exercises (3) and (4) above find for the following : (i) (ii) (iii) (iv) (v) 6 Using exercise (3) and 5(iv), show that for, Recap In this section you have learnt the following Taylor's theorem and its applications [Section 142] Objectives In this section you will learn the following : How to estimate a function by a quadratic function and how to estimate the error

142 Quadratic approximations 1421 Definitions: For, the Taylor 's polynomial is called the quadratic approximation of for near, and is also denoted by 1422Examples: (i) Consider the function Then, Thus, for near, For example for, (ii) Consider the function Then Thus, near, has quadratic approximation

(iii) Let Then, Thus, near, has quadratic approximation: For example, this given Like for linear approximations, it is natural to ask the question: How well does approximate for near? An answer to this question is the following: 1423Corollary: Let with and be the closed interval with end points and Let be such that (i) The functions are all continuous (ii) For every between and, exists and, then satisfies the following: 1423 Corollary: Let with and be the closed interval joining and Let be such that (i) The functions are all continuous (ii) For every between and, exists and, then satisfies the following:

Proof: Follows trivially from Taylor 's Theorem for 1424 Example: Consider the function Then We saw in example 1421, that the quadratic approximation for near the point is given by Let us estimate the error Let us fix a We have to consider two cases Case (i): In this case, for, we have Thus For example, for all Thus, for all differs from at most by Case (ii): In this case, for, we have Thus, For example, for 1425Note (Rate of convergence for the error): Since

clearly, faster than To see this, note that In fact, the error in the quadratic approximation tends to zero at a rate and hence CLICK HERE TO SEE AN INTERACTIVE VISUALIZATION : Applet 141 PRACTICE EXERCISES Let and for If is twice differentiable at, show that 1 is the quadratic approximation of near if and only if 2 Let Write down the linear and the quadratic approximations near the point Estimate the errors 3 For the following functions find the quadratic approximations near the point, and also find the error bounds valid for : Recap In this section you have learnt the following

How to estimate a function by a quadratic function and how to estimate the error

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