Chapter 3 – Differentiation Rules 3.3 Derivatives of Trig Functions Section 3.3 Derivatives of Trig Functions Erickson
Section 3.3 Derivatives of Trig Functions Remember… *This functions represents the inverse sin of x (arcsinx) and not any of the other listed functions. Section 3.3 Derivatives of Trig Functions Erickson
Section 3.3 Derivatives of Trig Functions Definitions Section 3.3 Derivatives of Trig Functions Erickson
Section 3.3 Derivatives of Trig Functions Derivative: Sine If we sketch the graph of the function f (x) = sin x and use the interpretation of f (x) as the slope of the tangent to the sine curve in order to sketch the graph of f , then it looks as if the graph of f may be the same as the cosine curve. Section 3.3 Derivatives of Trig Functions Erickson
Section 3.3 Derivatives of Trig Functions Example Prove that the derivative of sin(x) = cos(x). Section 3.3 Derivatives of Trig Functions Erickson
Derivatives of the Trig Functions Triggy Rules by Matheatre D’riv-ative of Sine X, Y’know trig don’t choke. is Cosine X. Derivatives of co-functions are- Derivative of Secant X is, Amazing! All Negative. Secant X Tan X! Ya substitute the functions for the co-functions as implied. Driv-ative Tangent X: I said y’know trig don’t choke, Secant Squared X. Remember the Chain rule, Chain Rule! Don’t forget the dx, dx! Triggy rules, triggy rules, Triggy, triggy, trigg rules, Section 3.3 Derivatives of Trig Functions Erickson
Derivatives of the Trig Functions Section 3.3 Derivatives of Trig Functions Erickson
Section 3.3 Derivatives of Trig Functions Example 1 Find the derivative of the following function: Section 3.3 Derivatives of Trig Functions Erickson
Section 3.3 Derivatives of Trig Functions Example 2 Find the derivative of the following function: Section 3.3 Derivatives of Trig Functions Erickson
Section 3.3 Derivatives of Trig Functions Example 3 Find if f (x) = sec x Section 3.3 Derivatives of Trig Functions Erickson
Section 3.3 Derivatives of Trig Functions Example 4 On a sunny day, a 50-ft flagpole casts a shadow that changes with the elevation of the sun. Let s be the length of the shadow and the angle of elevation of the sun. Find the rate at which the length of the shadow is changing with respect to when =45o. Express your answer in units of ft/degree. Section 3.3 Derivatives of Trig Functions Erickson
Section 3.3 Derivatives of Trig Functions Example 5 As illustrated on the left, suppose a spring with an attached mass is stretched 3 cm beyond its rest position and released at time t = 0. Assuming that the position function of the top of the attached mass is s = -3cost where s is in cm and t is in seconds, find the velocity function and discuss the motion of the attached mass. Section 3.3 Derivatives of Trig Functions Erickson
Section 3.3 Derivatives of Trig Functions Example 6 Find the equation of the normal and tangent lines to the curve at the given point. Section 3.3 Derivatives of Trig Functions Erickson
Section 3.3 Derivatives of Trig Functions Example 7 Find the limit Section 3.3 Derivatives of Trig Functions Erickson
Section 3.3 Derivatives of Trig Functions Example 8 Differentiate. Section 3.3 Derivatives of Trig Functions Erickson
Section 3.3 Derivatives of Trig Functions Assignment Page 154 #1-25 odd, 39-49 odd Section 3.3 Derivatives of Trig Functions Erickson