A mass is leaning against a spring, compressed of a distance d = 50 cm. Compute the speed of the mass when it reaches the equilibrium point of the spring. The mass is detaches from the spring and moves on a rough surface. Compute the distance crossed by the mass. If also the first distance d = 50 cm is a rough surface, compute the final distance crossed by the mass.(NB: mass = p kg, coefficient of friction = q spring constant = k N/m where p, q and k are dimensionless constants) Compute the speed of a mass starting with zero speed, moving on a rough, inclined plane of length 1 = 20 m, inclination 0 = 30°, subject to a dynamic friction of coefficient ud = 0.3.
A mass is leaning against a spring, compressed of a distance d = 50 cm. Compute the speed of the mass when it reaches the equilibrium point of the spring. The mass is detaches from the spring and moves on a rough surface. Compute the distance crossed by the mass. If also the first distance d = 50 cm is a rough surface, compute the final distance crossed by the mass.(NB: mass = p kg, coefficient of friction = q spring constant = k N/m where p, q and k are dimensionless constants) Compute the speed of a mass starting with zero speed, moving on a rough, inclined plane of length 1 = 20 m, inclination 0 = 30°, subject to a dynamic friction of coefficient ud = 0.3.
International Edition---engineering Mechanics: Statics, 4th Edition
4th Edition
ISBN:9781305501607
Author:Andrew Pytel And Jaan Kiusalaas
Publisher:Andrew Pytel And Jaan Kiusalaas
Chapter7: Dry Friction
Section: Chapter Questions
Problem 7.73P: The normal pressure acting on the disk of the sander is given by p=(4/3)+(r2/6), where p is the...
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