Free body diagram - Weight and normal reaction

In summary, the normal reaction force of the floor on the ball is the reaction force to the normal force of the ball on the floor.
  • #1
Jadaav
175
1
Let's consider a stationary ball lying on the floor.

The weight of the ball acts downwards and the normal reaction acts upwards. They are of the same magnitude but not of the same type.

So normal reaction is the reaction to what, if not weight ?
 
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  • #2
The "normal reaction" force of the floor on the ball is the reaction force to the normal force of the ball on the floor.

The force of the ball on the floor is not the weight of the ball. However, for a ball that is stationary and supported only by the floor, it will be equal to the weight of the ball.
 
  • #3
Okay.

So if the ball is stationary, the force of the ball on the floor is equal to the weight of it but isn't that of weight; if I understood what you said. Then, what is the force ?

What if the ball is moving horizontally with a speed, u m/s on the floor ?
 
  • #4
Jadaav said:
Let's consider a stationary ball lying on the floor.

The weight of the ball acts downwards and the normal reaction acts upwards. They are of the same magnitude but not of the same type.

So normal reaction is the reaction to what, if not weight ?
There are two meanings of the term "reaction" force:

(1) Since the ball does not fall through the floor, we can deduce that the floor must be exerting an upward normal force. This is often called a constraint or a "reaction" force. This term is used in engineering, not in physics! In physics it's usually just called the normal force.

(2) Per Newton's 3rd law, any two objects exert equal and opposite forces on each other. These are often called "action/reaction" pairs. That's something of an old-fashioned term; better to call those force pairs just "3rd law pairs".

Do not mix up the two meanings, or you'll just get confused.

If you're asking what's the 3rd law pair to the upward normal force exerted on the ball by the ground, then that's the downward normal force exerted on the ground by the ball.

The 3rd law pair to the weight (the gravitational pull of the Earth on the ball) is the gravitational pull of the ball on the earth.
 
  • #5
Jadaav said:
So if the ball is stationary, the force of the ball on the floor is equal to the weight of it but isn't that of weight; if I understood what you said. Then, what is the force ?

What if the ball is moving horizontally with a speed, u m/s on the floor ?
What matters is whether the ball is vertically accelerating or not. Since it's just rolling along the horizontal floor, we know that the floor must be exerting an upward force enough to balance the weight of the ball.

Weight is a gravitational force; the normal force is a contact force (largely electromagnetic).
 
  • #6
Thanks a bunch !

I was actually confused about the action-reaction pair and the normal force. You cleared them :)
 

1. What is a free body diagram?

A free body diagram is a visual representation of the forces acting on an object. It shows the direction and magnitude of each force, as well as the object's mass and any other relevant information.

2. What is weight in a free body diagram?

Weight is a force that is always directed towards the center of the earth. It is caused by the gravitational pull of the earth on an object and is represented by a downward arrow in a free body diagram.

3. What is normal reaction in a free body diagram?

Normal reaction is a force that is perpendicular to the surface an object is resting on. It is equal in magnitude and opposite in direction to the force pushing down on the object, such as the weight of the object or an applied force.

4. How do weight and normal reaction interact in a free body diagram?

Weight and normal reaction are equal and opposite forces. This means that the normal reaction is balancing out the weight of the object, keeping it in a state of equilibrium. If the normal reaction is greater than the weight, the object will accelerate upwards, and if the weight is greater than the normal reaction, the object will accelerate downwards.

5. Can an object have a weight and normal reaction in the same direction?

No, weight and normal reaction are always in opposite directions. If they were in the same direction, the object would not be in equilibrium and would experience a net force in that direction.

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