The boxes are at rest. The pulley is massless. Foull makes an angle 0 with respect to the incline. (i) Draw free body diagrams for m, and m, for the situation outlined in part (ii). (ii) What maximum force, Fpull, can you apply to m, and have it remain at rest? In terms of the given information. Just give the equation (or equations) needed to solve for the force. Do not simplify or isolate for Fpull, but make sure it is the only unknown. Fpull Given information: B (angle of incline with horizontal) e (angle Fpull makes with incline) m, (mass of box 1) m2 (mass of box 2) H (distance m, is above the ground) Hs (static friction coefficient, incline and box 1) He (kinetic friction coefficient, incline and box 1) m1 B m2

The boxes are at rest. The pulley is massless. Foull makes an angle 0 with respect to the incline. (i) Draw free body diagrams for m, and m, for the situation outlined in part (ii). (ii) What maximum force, Fpull, can you apply to m, and have it remain at rest? In terms of the given information. Just give the equation (or equations) needed to solve for the force. Do not simplify or isolate for Fpull, but make sure it is the only unknown. Fpull Given information: B (angle of incline with horizontal) e (angle Fpull makes with incline) m, (mass of box 1) m2 (mass of box 2) H (distance m, is above the ground) Hs (static friction coefficient, incline and box 1) He (kinetic friction coefficient, incline and box 1) m1 B m2

University Physics Volume 1

18th Edition

ISBN:9781938168277

Author:William Moebs, Samuel J. Ling, Jeff Sanny

Publisher:William Moebs, Samuel J. Ling, Jeff Sanny

Chapter5: Newton's Law Of Motion

Section: Chapter Questions

Problem 16CQ: Drawing Free-Body Diagrams In completing the solution for a problem involving forces, what do we do...

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Question

(Physics Problem)

Please show work and box final answer.

Thank you

The boxes are at rest. The pulley is massless. Foull makes an angle 0 with respect to the incline.
(i) Draw free body diagrams for m, and m, for the situation outlined in part (ii).
(ii) What maximum force, Full, can you apply to m, and have it remain at rest? In terms of the given information.
Just give the equation (or equations) needed to solve for the force. Do not simplify or isolate for F,
sure it is the only unknown.
but make
Fpull
pull
Given information:
B (angle of incline with horizontal)
• 0 (angle Foull makes with incline)
(mass of box 1)
m1
m1
(mass of box 2)
H (distance m, is above the ground)
H, (static friction coefficient, incline and box 1)
Hg (kinetic friction coefficient, incline and box 1)
m2
m2
H

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