Problem 4: A 10 kg particle follows the path of a straight line (dashed axis in sketch below). We are given that the x-component of the particle's position is, x(t) =cost, as a function of time t. The length scales in this problem are meters and time is in seconds. (5,2) m (0,0) X Particle E i) ii) What is the equation that parametrizes the line? We want y as a function of x. What is the position vector of the particle with respect to the Cartesian Coordinates? In other words, what is ŕ(t)? What is the net force acting on the particle at the instant t = π sec? Report your answer as a vector in Cartesian Coordinates.

Problem 4: A 10 kg particle follows the path of a straight line (dashed axis in sketch below). We are given that the x-component of the particle's position is, x(t) =cost, as a function of time t. The length scales in this problem are meters and time is in seconds. (5,2) m (0,0) X Particle E i) ii) What is the equation that parametrizes the line? We want y as a function of x. What is the position vector of the particle with respect to the Cartesian Coordinates? In other words, what is ŕ(t)? What is the net force acting on the particle at the instant t = π sec? Report your answer as a vector in Cartesian Coordinates.

Engineering Fundamentals: An Introduction to Engineering (MindTap Course List)

5th Edition

ISBN:9781305084766

Author:Saeed Moaveni

Publisher:Saeed Moaveni

Chapter10: Force And Force-related Variables In Engineering

Section: Chapter Questions

Problem 28P

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Question

Please show all steps

Problem 4: A 10 kg particle follows the path of a straight line (dashed axis in sketch below). We
are given that the x-component of the particle's position is, x(t) =cost, as a function of time t.
The length scales in this problem are meters and time is in seconds.
(5,2) m
(0,0)
X
Particle
E
i)
ii)
What is the equation that parametrizes the line? We want y as a function of x.
What is the position vector of the particle with respect to the Cartesian Coordinates?
In other words, what is ŕ(t)?
What is the net force acting on the particle at the instant t = π sec? Report your
answer as a vector in Cartesian Coordinates.

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