1. Consider the Lagrange coefficient polynomial L2x(x) that are used for quadratic interpolation at the nodes xo,X1, and x2. Define g(x)=L2,0(x)+L2.1(x)+L22(x)-1. a. Show that g is a polynomial of degree <2. b. Show that g(Xx)=0 for k=0,1,2.

Advanced Engineering Mathematics
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ISBN:9780470458365
Author:Erwin Kreyszig
Publisher:Erwin Kreyszig
Chapter2: Second-order Linear Odes
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Exercises:
1. Consider the Lagrange coefficient polynomial L2k(x) that are used for quadratic
interpolation at the nodes xo,X1, and x2. Define g(x)=L2,0(x)+L2.1(x)+L22(x)-1.
a. Show that g is a polynomial of degree < 2.
b. Show that g(Xx)=0 for k=0,1,2.
2. Consider the function f(x)=sin(x) on the interval [0,1]. Use theorem(3.3) to determine the
step size h so that:
a. linear Lagrange interpolation has an accuracy of 10°.
b. quadratic Lagrange interpolation has an accuracy of 10°.
c. cubic Lagrange interpolation has an accuracy of 10°.
Transcribed Image Text:Exercises: 1. Consider the Lagrange coefficient polynomial L2k(x) that are used for quadratic interpolation at the nodes xo,X1, and x2. Define g(x)=L2,0(x)+L2.1(x)+L22(x)-1. a. Show that g is a polynomial of degree < 2. b. Show that g(Xx)=0 for k=0,1,2. 2. Consider the function f(x)=sin(x) on the interval [0,1]. Use theorem(3.3) to determine the step size h so that: a. linear Lagrange interpolation has an accuracy of 10°. b. quadratic Lagrange interpolation has an accuracy of 10°. c. cubic Lagrange interpolation has an accuracy of 10°.
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