Calculating work done on a truck by friction when a truck is pushing a car

Is the speed of the truck constant? How can you calculate the work done on the truck without considering the force exerted by the truck on the car?In summary, to calculate the work done on the truck, we need to consider both the force exerted by the truck on the car and the frictional force acting on the car. Using the equation work = force x distance, we can calculate the work done by each force and then take the algebraic sum to find the total work done on the truck. In this case, the work done on the truck is 800J.
  • #1
kristy hardy
1
0

Homework Statement



A truck pushes a car by exerting a horizontal force of 500 N on it. A frictional force of 300N opposes the cars motion as it moves 4m. Calculate the work done on the truck.


Homework Equations



work = force x distance


The Attempt at a Solution



work done = 300N x 4 m = 1200J work right?
 
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  • #2
kristy hardy said:

Homework Statement



A truck pushes a car by exerting a horizontal force of 500 N on it. A frictional force of 300N opposes the cars motion as it moves 4m. Calculate the work done on the truck.


Homework Equations



work = force x distance

For constant forces, the work would be:

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

where [itex]\theta[/itex] is the angle between the force diretion and the displacement direction.


The Attempt at a Solution



work done = 300N x 4 m = 1200J work right?

No, I believe that would be the magnitude of the work done by friction. Remember that if we want to calculate the work done on the truck, you have to use the forces that act on the truck.
 
  • #3
My contribution: since the work done by resulting force on the body is the path integral along the path and this is a scalar (inner product from two vectors), is straightforward that the work of resulting force shall be the algebraic sum of work from each force acting on the considered body; in this way:

W = 500N x4 m - 300N x 4m = 800J

Danpos.
 
  • #4
kristy hardy said:

Homework Statement



A truck pushes a car by exerting a horizontal force of 500 N on it. A frictional force of 300N opposes the cars motion as it moves 4m. Calculate the work done on the truck.


Homework Equations



work = force x distance


The Attempt at a Solution



work done = 300N x 4 m = 1200J work right?

Not correct: the 300N force is NOT the force acting on the truck.
 
  • #5
The title of your post asks a different question that your post itself: which one is the actual question? And, don't you have more info?
 

1. How do you calculate the work done on a truck by friction when a truck is pushing a car?

The work done by friction can be calculated by multiplying the force of friction by the displacement of the truck. This can be expressed as W = Fd, where W is the work done, F is the force of friction, and d is the displacement of the truck.

2. What is the role of friction in calculating the work done on a truck pushing a car?

Friction is the force that opposes the motion of the truck and car. In order for the truck to push the car, it must overcome the force of friction. The work done on the truck by friction is a measure of the energy required to overcome this force and move the car.

3. How does the weight of the truck and car affect the work done by friction?

The weight of the truck and car affects the force of friction, which in turn affects the work done. The heavier the truck and car, the greater the force of friction and the more work that must be done to overcome it.

4. Is the work done by friction on the truck and car equal?

No, the work done by friction is not equal on the truck and car. The work done on the truck is greater because it is the one doing the pushing and therefore has to overcome the force of friction of both the truck and car.

5. What other factors may affect the calculation of work done by friction on a truck pushing a car?

Other factors that may affect the calculation of work done by friction include the type of surface the truck and car are on, the speed at which the truck is pushing the car, and any external forces acting on the truck and car (such as wind resistance).

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