Vector Mechanics for Engineers: Statics and Dynamics
Vector Mechanics for Engineers: Statics and Dynamics
12th Edition
ISBN: 9781259638091
Author: Ferdinand P. Beer, E. Russell Johnston Jr., David Mazurek, Phillip J. Cornwell, Brian Self
Publisher: McGraw-Hill Education
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Chapter 13.1, Problem 13.12P

A package is thrown down an incline at A with a velocity of 1 m/s. The package slides along the surface ABC to a conveyor belt that moves with a velocity of 2 m/s. Knowing that d = 6 m and μk = 0.2 between the package and all surfaces, determine (a) the speed of the package at C, (b) the distance the package will slide on the conveyor belt before it comes to rest relative to the belt.

Chapter 13.1, Problem 13.12P, A package is thrown down an incline at A with a velocity of 1 m/s. The package slides along the

(a)

Expert Solution
Check Mark
To determine

Find the speed (vC) of the package at the C.

Answer to Problem 13.12P

The speed (vC) of the package at the C is 3.4643m/s_.

Explanation of Solution

Given information:

The velocity of conveyor (vC) is 2m/s.

The coefficient of the static friction between package with surface (μk) is 0.25.

The distance between the point C to point B (dCB) is 7m.

The inclined angle of the member BA (θ) is 30°.

The velocity at the point A (vA) is 1m/s.

The distance between the point A to B (d) is 6m.

Assume the acceleration due to gravity (g) is 9.81m/s2.

Calculation:

Calculate the weight of the conveyor (W) using the formula:

W=mg

Substitute 9.81m/s2 for g.

W=(m)9.81=9.81m

Show the free body diagram of the package sliding from the corner A to B as in Figure (1).

Vector Mechanics for Engineers: Statics and Dynamics, Chapter 13.1, Problem 13.12P , additional homework tip  1

Calculate the normal force at point AB (NAB) using the formula:

NAB=Wcosθ

Substitute 9.81m for W and 30° for θ.

NAB=9.81mcos30°=8.496m

Calculate the force at point AB (FAB) using the formula:

FAB=μkNAB

Substitute 0.20 for μk and 8.496m for NAB.

FAB=(0.20)8.496m=1.6992m

Calculate the work done UAB using the formula:

UAB=Wdsin30°FABd

Substitute 9.81m for W and 1.6992m for FAB.

UAB=9.81mdsin30°(1.6992md)=md(9.81sin30°1.6992)=3.2058md

Show the free body diagram of the package sliding from corner B to C as in Figure (2).

Vector Mechanics for Engineers: Statics and Dynamics, Chapter 13.1, Problem 13.12P , additional homework tip  2

Calculate the normal force at point BC (NBC) using the formula:

NBC=W

Substitute 9.81m for W.

NAB=9.81m

Calculate the force at point BC (FBC) using the formula:

FBC=μkNBC

Substitute 0.2 for μk and 9.81m for NBC.

FBC=(0.2)9.81m=1.962m

Calculate the work done UBC using the formula:

UBC=FBCdBC

Substitute 1.962m for FBC and 7m for dBC.

UBC=1.962m(7)=13.734m

Assume the corner B has no energy.

Use work and energy principle which states that kinetic energy of the particle at a displaced point can be obtained by adding the initial kinetic energy and the work done on the particle during its displacement.

Find the speed (vC) of the package at the C:

TA+UAB+UBC=TC

Substitute 12mvA2 for TA, 12mvC2 for TC, 3.2058md for UAB, and 13.734m for UBC.

12mvA2+3.2058md13.734m=12mvC2m(vA22+3.2058d13.734)=12mvC2vA22+3.2058d13.734=vC22

Substitute 6m for d and 1m/s for vA.

(1)22+3.2058(6)13.734=vC226.0008=2vC=6.0008(2)vC=3.4643m/s

Therefore, the speed (vC) of the package at the C is 3.4643m/s_.

(b)

Expert Solution
Check Mark
To determine

Find the distance (xbelt) of the belt before it comes to rest.

Answer to Problem 13.12P

The distance (xbelt) of the belt before it comes to rest is 2.0391m_.

Explanation of Solution

Given information:

The velocity of conveyor (vC) is 2m/s.

The coefficient of the static friction between package with surface (μk) is 0.25.

The distance between the point C to point B (dCB) is 7m.

The inclined angle of the member BA (θ) is 30°.

The velocity at the point A (vA) is 1m/s.

The distance between the point A to B (d) is 6m.

Assume the acceleration due to gravity (g) is 9.81m/s2.

Calculation:

Calculate the force (F) using the formula:

F=μkN

Substitute 0.2 for μk and 9.81m for N.

F=(0.2)9.81m=1.962m

Calculate the work done Ubelt using the formula:

Ubelt=Fxbelt

Here, xbelt is the distance moves by package as it slides on the belt.

Substitute 1.962m for F.

Ubelt=1.962m(xbelt)

Use work and energy principle which states that kinetic energy of the particle at a displaced point can be obtained by adding the initial kinetic energy and the work done on the particle during its displacement.

Find the distance (xbelt) of the belt before it comes to rest:

TC+Ubelt=Tbelt

Substitute 12mvC2 for TC, 1.962m(xbelt) for Ubelt and 12mvbelt2 for Tbelt.

12mvC21.962m(xbelt)=12mvbelt2m(vC221.962xbelt)=12mvbelt2vC221.962xbelt=vbelt22

Substitute 3.4643m/s for vC and 2m/s for vbelt.

(3.46432)21.962xbelt=(2)221.962xbelt=(3.462)2(2)22xbelt=4.0006871.962xbelt=2.0391m

Therefore, the distance (xbelt) of the belt before it comes to rest is 2.0391m_.

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Chapter 13 Solutions

Vector Mechanics for Engineers: Statics and Dynamics

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