Answer An1.A laboratory prototype model is moving along a circular path having a radius of 4.0mm, such that its positionas a function of time is given by e = cas2t, where u is in radians and r is in seconds. Determine the magnitudeof the acceleration of the particle when 6- 35°.A laboratory prototype car model travels along the circular curveof radius r-40m with a constant speed of v= 30m/s. Determinethe angular rate of rotation of the radial line r and the magnitudeof the car's acceleration.Page 1 of4

A laboratory prototype model is moving along a circular path having a radius of4.0mm, such as a function of time is given by e- cor21, where u is in radians and ris in seconds. Determine the magnitude of the acceleration of the particle when 6-35 1.

A laboratory prototype model is moving along a circular path having a radius of4.0mm, such as a function of time is given by e- cor21, where u is in radians and ris in seconds. Determine the magnitude of the acceleration of the particle when 6-35 1.

International Edition---engineering Mechanics: Statics, 4th Edition

4th Edition

ISBN:9781305501607

Author:Andrew Pytel And Jaan Kiusalaas

Publisher:Andrew Pytel And Jaan Kiusalaas

Chapter1: Introduction To Statics

Section: Chapter Questions

Problem 1.19P: Plot the earths gravitational acceleration g(m/s2) against the height h (km) above the surface of...

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Answer An
1.
A laboratory prototype model is moving along a circular path having a radius of 4.0mm, such that its position
as a function of time is given by e = cas2t, where u is in radians and r is in seconds. Determine the magnitude
of the acceleration of the particle when 6- 35°.
A laboratory prototype car model travels along the circular curve
of radius r-40m with a constant speed of v= 30m/s. Determine
the angular rate of rotation of the radial line r and the magnitude
of the car's acceleration.
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