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3.8: Newton’s Method Greg Kelly, Hanford High School, Richland, Washington.

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Presentation on theme: "3.8: Newton’s Method Greg Kelly, Hanford High School, Richland, Washington."— Presentation transcript:

1 3.8: Newton’s Method Greg Kelly, Hanford High School, Richland, Washington

2 Objective Approximate a zero of a function using Newton's Method.

3 Interval Midpoint(c) f(c)
Recall the Bisection Method for approximating roots. Need interval where f(endpoints) have different signs. Interval [ -, +] Midpoint(c) f(c) [1, 2] 1.5 + [1, 1.5] 1.25 - [1.25, 1.5] 1.375 [1.375, 1.5] 1.4375 Converges, but it may take a while.

4 Another method for finding zeros (besides the Bisection Method) is called Newton’s Method (also known as Newton-Raphson Method). Requirements for Newton’s Method: Needs an initial “good” estimate Uses the derivative of the function in the calculation, so the function needs to be differentiable in the open interval (a,b) around the zero

5 Newton's Method is based on the assumption that the graph of f and the tangent line at (x,f(x)) both cross the x-axis at about the same point. You use that x-intercept to make another estimate (usually better) for the zero.

6 Tangent line: set y=0 and solve for x
Newton's Method: Tangent line: set y=0 and solve for x intercept new guess Next estimates:

7 Using Newton's Method: Let f(c)=0 where f is differentiable on an open interval containing c. Make an initial estimate x1 (that's "close" to c). Determine a new approximation: If is within the desired accuracy, stop. Otherwise repeat step 2.

8 Calculate 3 iterations of Newton's Method to approximate a zero of
Use x1=1 as the initial guess. Find x4.

9 TI 84 Procedure: Set y1 = function and y2 = derivative Type in the initial approximation and hit ENTER. Type in ANS – y1(ANS) / y2(ANS) hit ENTER Hit ENTER for next approximation. Repeat step 4 until the desired accuracy is reached.

10 Use Newton's Method to approximate the zeros of
Continue until successive approximations differ by less than Test some #s: Or look at graph on calculator (x≈-1.2) x1=-1.2 x1=-1. x1=0 x2= x2= x2=1 x3= x3= x3= x4= x4= x5= x6= x18=

11 Use Newton's Method to find zeros of Let x1=0.1.

12 There are some limitations to Newton’s method:
Looking for this root. Bad guess. Wrong root found Failure to converge

13 Condition for Convergence:

14 Example: On the interval (1,3), it will be <1. So convergence of Newton's method is guaranteed.

15 Example: For any value of x, it equals 2, so Newton's Method will fail to converge.

16 Homework 3.8 (p. 226) #1-17 odd 27, 29, 33 (#5-13 only find one root)


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