A boy does 465 J of work pulling an empty wagon along level ground with a force of 111 N [31° below the horizontal]. A frictional force of 155 N opposes the motion and is actually slowing the wagon down from an initial high velocity. The distance the wagon travels is _____."

W = Fdcosθ
465 J = (111 N)d(cos31°)
d = (465 J)/(111 N)(cos31°)
d = 4.89 m

Where does the frictional force come in here? Does it actually affect the distance travelled or does it just slow down the wagon?

it will slow down the wagon and produces heat. we call 'lost' which makes efficiency less than 100%

total energy that the boy exerts = work done + heat
... we consider only the work done so friction force is not included.

how much heat is produced?
heat = friction force x distance

Answer Link

aristocles aristocles · Answer 2 · 2019-07-26T03:12:07+02:00

Answer:

Explanation:

When an object is moved over rough floor then during their motion the net work done is

W = 465 J

now the displacement of the wagon can be found by formula of work done as

[tex]W = F d cos\theta[/tex]

[tex]465 = 111(d)cos31[/tex]

[tex]d = \frac{465}{111 cos31}[/tex]

[tex]d = 4.89 m[/tex]

now here this is the energy which is lost by the boy in order to move the wagon

here frictional force is opposite force while wagon is moving on the rough floor

so here we can say that friction force only oppose the motion due to which object slow down and work done by friction force is loss of energy in form of heat

so here we will say that the work done by boy on the wagon is his energy loss and that energy is used to compensate the energy loss due to friction force.