Exploring the Physics of Newton's Third Law: Acceleration of a Box

In summary, Newton's third law states that for every action, there is an equal and opposite reaction. This means that if you push a box with 15N of force, the box will push back on you with 15N of force. However, in order to accelerate the box, there must be an unbalanced force acting on it. In this case, the box is not accelerating because the forces acting on it are equal and opposite, resulting in a net force of 0. This is because the force from the box pushing back on you is being countered by your muscles keeping you in place. Therefore, the two equal and opposite forces do not both act on the box, preventing it from accelerating.
  • #1
gotwind
2
0

Homework Statement


Newtons third law tells that if you push a box with 15N force, it pushes back on you with 15N force. How can you ever accelerate this box if it always pushes back with the same force you exert on it? explain briefly
 
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  • #2
The box isn't accelerating so the sum of the forces is going to equal 0.
 
  • #3
You are applying a force on the box in one direction. Nothing is applying a force on the BOX in the opposite dirrection you are. The force the box acts on us is countered by our muscles which force our body to stay in the spot we are.
 
  • #4
gotwind said:
Newtons third law tells that if you push a box with 15N force, it pushes back on you with 15N force. How can you ever accelerate this box if it always pushes back with the same force you exert on it?
Ask yourself: Do the two equal and opposite forces from Newton's 3rd law both act on the box?
 
  • #5


While it may seem counterintuitive, the acceleration of the box can still occur even though it pushes back with the same force you exert on it. This is because Newton's third law states that for every action, there is an equal and opposite reaction. So while the box may push back on you with 15N of force, your hand is also experiencing a force of 15N in the opposite direction. This means that there is a net force of 15N acting on the box, causing it to accelerate.

Additionally, the acceleration of the box is dependent on its mass. If the box has a smaller mass, it will accelerate more easily with the same amount of force. So even though the box is pushing back with the same 15N force, the smaller mass allows it to accelerate more easily.

Another factor to consider is the friction between the box and the surface it is on. If there is a significant amount of friction, it will require more force to overcome it and accelerate the box. However, if the surface is smooth and there is minimal friction, the box may accelerate more easily with the same amount of force.

In summary, while the box may push back with the same force you exert on it, there are other factors such as mass and friction that can affect its acceleration. Newton's third law does not prevent the acceleration of an object, but rather explains the relationship between the forces acting on it.
 

FAQ: Exploring the Physics of Newton's Third Law: Acceleration of a Box

What is Newton's Third Law?

Newton's Third Law states that for every action, there is an equal and opposite reaction. This means that when an object exerts a force on another object, the second object exerts an equal and opposite force back on the first object.

How does Newton's Third Law apply to the acceleration of a box?

When a force is applied to a box, according to Newton's Third Law, the box will exert an equal and opposite force back on the object that is pushing it. This results in a change in the box's velocity, or acceleration.

What factors affect the acceleration of a box?

The acceleration of a box is affected by the magnitude of the force applied to it, the mass of the box, and the direction of the force in relation to the box's movement.

How can Newton's Third Law be demonstrated in an experiment?

An experiment to demonstrate Newton's Third Law of motion could involve placing a box on a frictionless surface and applying a known force to one side of the box. The box should then accelerate in the opposite direction, demonstrating the equal and opposite forces at play.

What are some real-world applications of Newton's Third Law?

Newton's Third Law has many real-world applications, such as in rocket propulsion, car engines, and sports such as swimming and skating. It also helps explain the mechanics of objects in motion and how they interact with each other.

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