Compression or Normal Force: Difference between revisions

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===Simple===
===Simple===


[[File: ExampleNorm1.png|left|thumb|Example 1]]
[[File: ExampleNorm2.png|left|thumb|Example 1]]


On the image to the left (Example 1), there is a 7 kilogram block resting on top a flat table. Find the normal force, <math> F_n\ </math>, that is being exerted on the block.
On the image to the left (Example 1), there is a 7 kilogram block resting on top a flat table. Find the normal force, <math> F_n\ </math>, that is being exerted on the block.

Revision as of 21:17, 29 November 2015

Claimed by Hemanth Koralla

FN represents the normal force

Compression of Normal Force

The compression or also commonly known as the normal force, [math]\displaystyle{ F_n\ }[/math], is a simple fundamental concept that must be understood before attempting any contact force problem. First, it is important to understand that the normal force is NOT a kind of fundamental force such as the electric or gravitational force. It is just a force used to describe the interaction between atoms. As hinted by the name, this force simply points in the perpendicular or "normal" direction to the surface(s) that it is in contact with. The magnitude of this normal force often just the weight of the object, depending on the angle at which object is resting on the other surfaces.

This normal force can also be used to find the force of friction as well. The approximate force of friction is the static friction coefficient multiplied by this normal force.

Equations

The formula for calculating the normal force is:

[math]\displaystyle{ F_n = mg \cos(\theta) }[/math]

and the formula for calculating the force of friction using this normal force is:

[math]\displaystyle{ F_f = \mu_k F_n }[/math]
[math]\displaystyle{ = \mu_k (mg \cos(\theta)) }[/math]

Examples

Time for a few examples:

Simple

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Example 1

On the image to the left (Example 1), there is a 7 kilogram block resting on top a flat table. Find the normal force, [math]\displaystyle{ F_n\ }[/math], that is being exerted on the block. The force of gravity is 9.8 N/kg.




Answer

(a) 
Fn = mgcos(theta) 
In this example, theta will be 90 since the normal force is perpendicular to the surface that it is resting on, thus 90 degrees. 
Now we can plug into our formula: 
m = 7kg
g = 9.8 N/kg
theta = 90
Fn = (7 kg)(9.8 N/kg)cos(90)
 = 68.6 N

Middling

Difficult

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History

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Sir Issac Newton

The normal force a direct application of Newton's Third Law of Motion. As you probably know, Sir Issac Newton was famous scientist from England who roamed the Earth from 1643 to 1727. His work in math and physics set the stage for many of the principles and theories that we have today. His main work, the Philosophiae Naturalis Principia Mathematic, discussed the many of his theories about physics and stated his three laws of motion. You find even more information about him under the people tab.

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External links

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References

Information: https://en.wikipedia.org/wiki/Normal_force

http://www.sparknotes.com/physics/dynamics/newtonapplications/section1.rhtml

http://hyperphysics.phy-astr.gsu.edu/hbase/thermo/thereq.html


Images: https://en.wikipedia.org/wiki/Normal_force#/media/File:Friction_relative_to_normal_force_(diagram).png

http://www.fromoldbooks.org/Aubrey-HistoryOfEngland-Vol3/pages/vol3-401-Sir-Isaac-Newton/

http://www.sparknotes.com/physics/dynamics/newtonapplications/section1.rhtml