The helical path is wound around the circular cylinder with radius R . The step h= 2*pi*R. The object A is sliding through the path guide under gravity (acting in the negative zdirection). There is no air resistance 1)Draw the force diagrams in (theta ,Z ) plane (tangent to the cylinder) and in ( r,theta ) plane. 2) If the initial speed is 0, find the speed after 3 full circles. Given: R, g, m, u. [Hint: Use the work-energy principle.]
The helical path is wound around the circular cylinder with radius R . The step h= 2*pi*R. The object A is sliding through the path guide under gravity (acting in the negative zdirection). There is no air resistance 1)Draw the force diagrams in (theta ,Z ) plane (tangent to the cylinder) and in ( r,theta ) plane. 2) If the initial speed is 0, find the speed after 3 full circles. Given: R, g, m, u. [Hint: Use the work-energy principle.]
Refrigeration and Air Conditioning Technology (MindTap Course List)
8th Edition
ISBN:9781305578296
Author:John Tomczyk, Eugene Silberstein, Bill Whitman, Bill Johnson
Publisher:John Tomczyk, Eugene Silberstein, Bill Whitman, Bill Johnson
Chapter50: Commercial, Packaged Rooftop, Variable Refrigerant Flow, And Variable Air Volume Systems
Section: Chapter Questions
Problem 23RQ: The acronym PID stands for ______, _____, and ______.
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The helical path is wound around the circular cylinder with radius
R . The step h= 2*pi*R. The object A is sliding through the path guide under gravity (acting in the negative zdirection). There is no air resistance
1)Draw the force diagrams in (theta ,Z ) plane (tangent to the cylinder) and in
( r,theta ) plane.
2) If the initial speed is 0, find the speed after 3 full circles. Given: R, g, m, u.
[Hint: Use the work-energy principle.]
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