Physics for Scientists and Engineers: Foundations and Connections
Physics for Scientists and Engineers: Foundations and Connections
1st Edition
ISBN: 9781337026345
Author: Katz
Publisher: Cengage
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Chapter 6, Problem 27PQ

Curling is a game similar to lawn bowling except it is played on ice and instead of rolling balls on the lawn, stones are slid along ice. A curler slides a stone across a sheet of ice with an initial speed vi in the positive x direction. The coefficient of kinetic friction between the stone and the curling lane is μk. Express your answers in terms of vi, μk, and g only. a. What is the acceleration of the stone as it slides down the lane? b. What distance does the curling stone travel?

(a)

Expert Solution
Check Mark
To determine

The acceleration of the stone as it slides down the lane.

Answer to Problem 27PQ

The acceleration of the stone as it slides down the lane is μkgi^

Explanation of Solution

Take horizontal direction to be x direction and vertical direction to be y direction.

The stone slides on a horizontal surface so that the net force in the vertical direction must be zero.

Write the expression for the Newton’s second law of motion in y direction.

  ΣFy=0                                                                                                                      (I)

Here, ΣFy is the magnitude of net force in y direction.

Write the expression for ΣFy .

  ΣFy=FNmg

Here, FN is the magnitude of the normal force, m is the mass of the stone and g is the acceleration due to gravity.

Put the above equation in equation (I).

  FNmg=0FN=mg                                                                                                          (II)

Write the expression for the Newton’s second law of motion in x direction.

  ΣFx=max

Here, ΣFx is the magnitude of net force in x direction and ax is the magnitude of the acceleration of the stone.

Rewrite the above equation for ax .

  ax=ΣFxm                                                                                                                 (III)

After the stone loses contact with the curling stick, the only force acting in the horizontal direction is the force of friction. The force of friction acts opposite to the motion of the stone.

Write the expression for ΣFx .

  ΣFx=Ff                                                                                                               (IV)

Here, Ff is the magnitude of the force of friction.

Write the expression for Ff .

  Ff=μkFN

Here, μk is the coefficient of kinetic friction.

Put equation (II) in the above equation.

  Ff=μkmg

Put the above equation in equation (IV).

  ΣFx=μkmg

Put the above equation in equation (III).

  ax=μkmgm=μkg                                                                                                             (V)

The acceleration acts along x direction. Write the expression for the acceleration.

  ax=axi^                                                                                                                   (VI)

Here, ax is the acceleration of the stone.

Conclusion:

Put equation (V) in equation (VI).

  ax=μkgi^

Therefore, the acceleration of the stone as it slides down the lane is μkgi^

(b)

Expert Solution
Check Mark
To determine

The distance travelled by the curling stone.

Answer to Problem 27PQ

The distance travelled by the curling stone is Δx=vi22μkg.

Explanation of Solution

Write the Newton’s constant acceleration equation.

  vf2=vi2+2axΔx

Here, vf is the final velocity of the stone, vi is the initial velocity of the stone and Δx is the distance travelled by the stone.

Rewrite the above equation for Δx .

  Δx=vf2vi22ax

Put equation (V) in the above equation.

  Δx=vf2vi22μkg=vi2vf22μkg                                                                                                       (VII)

Conclusion:

The final velocity of the stone is zero.

Substitute 0 for vf in equation (VII) to find Δx .

  Δx=vi202μkg=vi22μkg

Therefore, the distance travelled by the curling stone is Δx=vi22μkg.

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Chapter 6 Solutions

Physics for Scientists and Engineers: Foundations and Connections

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