If you put a weight on a table, the weight will press down on the table. The normal force (N.F.) is the force that pushes straight up on the weight.
In the figure above, the green arrow is the force that pushes on the weight. The red arrow is the force that pushes on the table.
Similarly, when you stand on the ground, it is not just you who can push down with some force on the ground.
The ground is also pushing up with some force on you as well.
This type of force applies only to solid surfaces. It would not apply to a surface of a fluid.
For instance, the force applied on the bottom of a boat or ship is not a normal force. It is called buoyant force.
The N.F. is always perpendicular to the surface where the weight is applying some force.
In fact, the word normal means perpendicular.
To find the N.F., just put all the forces on the y-axis. Notice that we show nothing on the x-axis. The reason for this is because there is no horizontal movement and no horizontal force. The diagram below shows the forces on the y-axis.
We can apply Newton's second law of motion to find the N.F.
Net force = m × aYou can then write an equation that represents the situation in the diagram.
First, let us talk about the acceleration. Since the weight and the table are not accelerating, the acceleration is equal to zero.
When writing the equation for the net force, always start by writing the forces that are positive.
The forces are positive if they are oriented upward. Remember that in the coordinate system, up is positive.
we get: N - F_{g} = m × a _{y}A little exercise:
A man with a mass of 100 kg stands on a table. How big is the force exerted on the man?
Solution: The force exerted on the man is the normal force.
We showed above that this force is equal to the mass times the acceleration of gravity.
N = m × g = 100 × 9.8 = 980 NewtonsBack to Newton's second law
Mar 16, 17 03:15 PM
Great lesson about the law of reflection. Crystal clear explanation
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