The displacement (in centimeters) of a particle moving back and forth along a straight line is given by the equation of motion s = 3 sin(at) + 5 cos(rt), where t is measured in seconds. (Round your answers to two decimal places.) (a) Find the average velocity during each time period. (i) [1, 2] cm/s (ii) [1, 1.1] cm/s (iii) [1, 1.01] cm/s (iv) [1, 1.001] cm/s (b) Estimate the instantaneous velocity of the particle when t = 1. cm/s

The displacement (in centimeters) of a particle moving back and forth along a straight line is given by the equation of motion s = 3 sin(at) + 5 cos(rt), where t is measured in seconds. (Round your answers to two decimal places.) (a) Find the average velocity during each time period. (i) [1, 2] cm/s (ii) [1, 1.1] cm/s (iii) [1, 1.01] cm/s (iv) [1, 1.001] cm/s (b) Estimate the instantaneous velocity of the particle when t = 1. cm/s

Trigonometry (MindTap Course List)

10th Edition

ISBN:9781337278461

Author:Ron Larson

Publisher:Ron Larson

Chapter3: Additional Topics In Trigonometry

Section: Chapter Questions

Problem 41CT

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Concept explainers

Differential Equations

Have you ever observed the movement of the satellites and rockets or how the planets go around the sun in their orbits? How will you determine their motion? Definitely they follow some scientific laws and these kinds of problems are framed as differential equations.

Question

The displacement (in centimeters) of a particle moving back and forth along a straight line is given by the equation of motion
s = 3 sin(at) + 5 cos(rt), where t is measured in seconds. (Round your answers to two decimal places.)
(a) Find the average velocity during each time period.
(i)
[1, 2]
cm/s
(ii)
[1, 1.1]
cm/s
(iii)
[1, 1.01]
cm/s
(iv)
[1, 1.001]
cm/s
(b) Estimate the instantaneous velocity of the particle when t = 1.
cm/s

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