What Is the Resultant Force Exerted by a Car on the Road?

In summary, a 1070 kg car pulling a 320 kg trailer with an acceleration of 2.01 m/s2 experiences a resultant force of 2793.9 N from the ground, with a direction of inverse tan (10486/2793.9) = 75.2 degrees measured from the left of vertically downwards. The net force on the car is 2150.7 N and the net force on the trailer is 643.2 N. The force exerted by the trailer on the car is 643.2 N.
  • #1
jelly1500
10
0
[SOLVED] Resultant force on a car

Homework Statement


A 1070 kg car is pulling a 320 kg trailer. Together the car and trailer move forward with an acceleration of 2.01 m/s2. Ignore any frictional force of air drag on the car and all frictional forces on the trailer. Determine the following.
(a) the net force on the car
(b) the net force on the trailer
(c) the force exerted by the trailer on the car
(d) the resultant force exerted by the car on the road
(e) direction (measured from the left of vertically downwards)

Homework Equations


F=ma

The Attempt at a Solution


I figured out A, B & C but can't seem to get D & E. I thought the resultant force exerted by the car on the road is Fg=mg=1070(9.8)=10486 but it is wrong.

And for the direction, I used inverse tan (10486/2150.7) but that was wrong too. (2150.7 being the net force on the car)
 
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  • #2
The car is experiencing a forwards directing force, let's say F, from the ground and a backwards directed force coming from the trailer, let's say T. These two forces combined gives the resultant force that the car is experiencing.
 
  • #3
So would the forwards directing force be F=2150.7 (from answer a) and the backwards directed force coming from the trailer be T=643.2 (answer b), giving me a total resultant force of 2793.9.

Sorry I'm still a confused.
 
  • #4
Correct. Best make a drawing. That may crystalize the situation for you. What it means is that the force coming from the ground need to supply the resultant force accelerating the car and the trailer.
 
  • #5
Ok, thank you so much.

And for part e, I would then get the inverse tan of 10486/2793.9?

10486 being the force of gravity in the y direction and 2793.9 being the resultant force in the x direction.
 
  • #6
The direction of which force is required - it is not clear for me from the question as you put it?
 
  • #7
Oh sorry for not making that clear: D and E are correlated, so the direction of the resultant force exerted by the car on the road.
 
  • #8
I assume that it is the force from the road on the car. According to my drawing it looks like the tangent is the forward force divided by the normal force.
 
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  • #9
oh ok, thank you for all your help!
 
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  • #10
jelly1500 said:
Oh sorry for not making that clear: D and E are correlated, so the direction of the resultant force exerted by the car on the road.

I assume you mean the resultant force from the road on the car?

In that case my drawing shows that the tangent is given by the ratio F/N , N being the normal force acting on the car.
 

1. What is resultant force on a car?

The resultant force on a car is the overall force acting on the car, taking into account all the individual forces acting on it. It is a vector quantity, meaning it has both magnitude and direction.

2. How is the resultant force on a car calculated?

The resultant force on a car is calculated by adding up all the individual forces acting on the car using vector addition. This can be done using diagrams, equations, or by breaking down the forces into their horizontal and vertical components.

3. What are the factors that affect the resultant force on a car?

The factors that affect the resultant force on a car include the mass of the car, the speed of the car, and the direction and magnitude of the individual forces acting on the car (such as friction, air resistance, and gravity).

4. How does the resultant force affect the motion of a car?

The resultant force on a car determines its acceleration and therefore affects its motion. If the resultant force is zero, the car will remain at a constant velocity. If the resultant force is non-zero, the car will accelerate in the direction of the resultant force.

5. How can the resultant force on a car be changed?

The resultant force on a car can be changed by altering the individual forces acting on the car. For example, increasing the engine power can increase the force propelling the car forward, while increasing the air resistance or friction can decrease the resultant force. Additionally, changing the direction of the forces acting on the car can also change the resultant force.

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