Activity 2: You are working on another electronic system that produces a voltage (v) as a function of time per the following equation: v = 0.1t -√/1.5/t (2-a) Sketch the voltage versus time and estimate the roots graphically. (2-b) Use Bisection and Newton-Raphson techniques to calculate the root that exists in the time interval [5,10]. Make sure you use 5 iterations for each method. (Note: start with t = 5 and 10 for the Bisection technique, and start with t = 5 for the Newton-Raphson technique). (2-c) Critically evaluate all techniques used in parts 2-a and 2-b, commenting on their applicability and accuracy.
Activity 2: You are working on another electronic system that produces a voltage (v) as a function of time per the following equation: v = 0.1t -√/1.5/t (2-a) Sketch the voltage versus time and estimate the roots graphically. (2-b) Use Bisection and Newton-Raphson techniques to calculate the root that exists in the time interval [5,10]. Make sure you use 5 iterations for each method. (Note: start with t = 5 and 10 for the Bisection technique, and start with t = 5 for the Newton-Raphson technique). (2-c) Critically evaluate all techniques used in parts 2-a and 2-b, commenting on their applicability and accuracy.
Algebra & Trigonometry with Analytic Geometry
13th Edition
ISBN:9781133382119
Author:Swokowski
Publisher:Swokowski
Chapter7: Analytic Trigonometry
Section7.6: The Inverse Trigonometric Functions
Problem 94E
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