The motion of a point on the circumference of a rolling wheel of radius 3 feet is described by the vector function 7(t) = 3(26t – sin(26t))i + 3(1 – cos(26t)) Find the velocity vector of the point. (2)2 Find the acceleration vector of the point. a(t) Find the speed of the point. s(t)

The motion of a point on the circumference of a rolling wheel of radius 3 feet is described by the vector function 7(t) = 3(26t – sin(26t))i + 3(1 – cos(26t)) Find the velocity vector of the point. (2)2 Find the acceleration vector of the point. a(t) Find the speed of the point. s(t)

Algebra & Trigonometry with Analytic Geometry

13th Edition

ISBN:9781133382119

Author:Swokowski

Publisher:Swokowski

Chapter3: Functions And Graphs

Section3.2: Graphs Of Equations

Problem 45E

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Question

The motion of a point on the circumference of a rolling wheel of radius 3 feet is described by the vector
function
7(t) = 3(26t – sin(26t))i + 3(1 – cos(26t))}
Find the velocity vector of the point.
(?)a
Find the acceleration vector of the point.
d(t)
Find the speed of the point.
s(t)

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