PS- UCM Horizontal m1 = 0.25 kg O m2 = 0.75 kg Mass 1 and mass 2 are connected to the opposite ends of a string of negligible mass that passes through a frictionless tube (as shown). Due to gravity, m2 pulls the string down ward thereby pulling m1 closer to the tube. This unbalance force within the system can be equalized by spinning m1 horizontally by way of holding the tube to generate centripetal force which will create equilibrium. At what linear velocity should m1 be spun to create equilibrium? What is the tension on the string when there is equilibrium? L = 0.80 m
PS- UCM Horizontal m1 = 0.25 kg O m2 = 0.75 kg Mass 1 and mass 2 are connected to the opposite ends of a string of negligible mass that passes through a frictionless tube (as shown). Due to gravity, m2 pulls the string down ward thereby pulling m1 closer to the tube. This unbalance force within the system can be equalized by spinning m1 horizontally by way of holding the tube to generate centripetal force which will create equilibrium. At what linear velocity should m1 be spun to create equilibrium? What is the tension on the string when there is equilibrium? L = 0.80 m
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
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Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Transcribed Image Text:PS UCM Horizontal
m1 = 0.25 kg
O
m2 = 0.75 kg
Mass 1 and mass 2 are connected to the opposite ends of a string of negligible mass that passes through
a frictionless tube (as shown). Due to gravity, m2 pulls the string down ward thereby pulling m1 closer to
the tube. This unbalance force within the system can be equalized by spinning m1 horizontally by way of
holding the tube to generate centripetal force which will create equilibrium.
At what linear velocity should m1 be spun to create equilibrium?
What is the tension on the string when there is equilibrium?
L=0.80 m
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