forces
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Forces. Insert your final Star Wars joke here. General Definition. A force is any influence that causes an object to undergo a change in speed, a change in direction, or a change in shape. The units of force are newtons, named after Isaac Newton. - PowerPoint PPT PresentationTRANSCRIPT
ForcesInsert your final Star Wars joke here
General Definition• A force is any influence that causes an
object to undergo a change in speed, a change in direction, or a change in shape.
• The units of force are newtons, named after Isaac Newton.
• As the unit of force, the newton is equal to a kilogram-meter per second squared.
Don’t hate.
Types of Forces•Contact Force
–any force applied on an object through direct contact with that object.
•Field Force–Any force applied on an object through a “field”, acting at a distance without direct contact.
»Gravity»Magnetism
• Isaac Newton:– Arguably the most important scientist
in human history.– Wealthy Nobleman.
• Came up with three basic laws that governed motion.
– First law: The velocity of a body remains constant unless the body is acted upon by an unbalanced external force.
– Second law: The acceleration a of a body is parallel and directly proportional to the net force F and inversely proportional to the mass m, i.e., F = ma.
– Third law: The mutual forces of action and reaction between two bodies are equal, opposite and collinear.
- Inventor of the spork.- Criminal Mastermind.- Brew-master of fine ales.-
Philanthropist.- International ladies man.
Newton’s Laws of Motion
Quick Quiz:•True or False:
–If an object is at rest, it will stay at rest until something causes it to move.
–If an object is moving, it will continue to move in the same way until sometime causes a change in the motion of that object. TRUE
TRUE
•First law:–The velocity of a body remains constant unless the body is acted upon by an unbalanced external force.
–This resistance to a change in motion is called inertia.
Inertia and Newton’s First Law
This is an object.
It is at rest.
The blue arrow represent forces, does the motion of the object change?
•First law:–The velocity of a body remains constant unless the body is acted upon by an unbalanced external force.
–This resistance to a change in motion is called inertia.
Inertia and Newton’s First Law
This is an object.
It is at rest.
The blue arrows represent forces, does the motion of the object change?
•First law:–The velocity of a body remains constant unless the body is acted upon by an unbalanced external force.
–This resistance to a change in motion is called inertia.
Inertia and Newton’s First Law
This is an object.
It is at rest.
The blue arrows represent forces, does the motion of the object change?
•First law:–The velocity of a body remains constant unless the body is acted upon by an unbalanced external force.
–This resistance to a change in motion is called inertia.
Inertia and Newton’s First Law
This is an object.
It is at rest.
The blue arrows represent forces, does the motion of the object change?
•First law:–The velocity of a body remains constant unless the body is acted upon by an unbalanced external force.
–This resistance to a change in motion is called inertia.
Inertia and Newton’s First Law
This is an object.
It is in motion.
The green arrow indicates the motion and blue arrows represent forces, does the motion of the object change?
•First law:–The velocity of a body remains constant unless the body is acted upon by an unbalanced external force.
–This resistance to a change in motion is called inertia.
Inertia and Newton’s First Law
This is an object.
It is in motion.
The green arrow indicates the motion and blue arrows represent forces, does the motion of the object change?
•First law:–The velocity of a body remains constant unless the body is acted upon by an unbalanced external force.
–This resistance to a change in motion is called inertia.
Inertia and Newton’s First Law
This is an object.
It is in motion.
The green arrow indicates the motion and blue arrows represent forces, does the motion of the object change?
•First law:–The velocity of a body remains constant unless the body is acted upon by an unbalanced external force.
–This resistance to a change in motion is called inertia.
Inertia and Newton’s First Law
This is an object.
It is in motion.
The green arrow indicates the motion and blue arrows represent forces, does the motion of the object change?
•First law:–The velocity of a body remains constant unless the body is acted upon by an unbalanced external force.
–This resistance to a change in motion is called inertia.
Inertia and Newton’s First Law
This is an object.
It is in motion.
The green arrow indicates the motion and blue arrows represent forces, does the motion of the object change?
•Second law:– The acceleration a of a body is parallel and
directly proportional to the net force F and inversely proportional to the mass m, (i.e.: F = ma).
– It is very important to conceptualize Net force as the sum of all forces applied on an object.
Newton’s Second Law
This is an object.
It has 1.00kg of mass.
Since the sum of no forces is zero, there is no acceleration.
Newton’s Second LawDivide both sides by
mass.
Insert values.
In which direction is the acceleration?
•Second law:– The acceleration a of a body is parallel and
directly proportional to the net force F and inversely proportional to the mass m, (i.e.: F = ma).
– It is very important to conceptualize Net force as the sum of all forces acting on an object
Newton’s Second Law
This is an object.
It has 2.00kg of mass.
There is one, 10.0N force acting on it, what is the acceleration of the object?
Newton’s Second LawDivide both sides by
mass.
Insert values.
In which direction is the acceleration?
There is one, 10.0N force and one, 15.0N force acting on it, what is the acceleration of the object?
•Second law:– The acceleration a of a body is parallel and
directly proportional to the net force F and inversely proportional to the mass m, (i.e.: F = ma).
– It is very important to conceptualize Net force as the sum of all forces acting on an object
Newton’s Second Law
This is an object.
It has 10.0kg of mass.
Newton’s Second LawFind the net Force
(Fnet).15.0
NFnet is 5.0N
- 10.0N
= 5.0N
Use the net force to calculate the acceleration experienced by the mass.
Newton’s Second LawDivide both sides by
mass.
Insert values.
In which direction is the acceleration?
There is one, 10.0N force and one, 25.0N force acting on it, what is the acceleration of the object?
•Second law:– The acceleration a of a body is parallel and
directly proportional to the net force F and inversely proportional to the mass m, (i.e.: F = ma).
– It is very important to conceptualize Net force as the sum of all forces acting on an object
Newton’s Second Law
This is an object.
It has 10.0kg of mass.
Newton’s Second LawDraw the Force vectors
tip to tail
Insert values.
Draw the resultant vector.Use the Pythagorean
Theorem.
Fnet = 26.9NUse the net force to calculate the acceleration experienced by the mass.
Newton’s Second LawDivide both sides by
mass.
Insert values.
In which direction is the acceleration?
Newton’s Second LawDraw the Force vectors
tip to tail
Insert values.
Draw the resultant vector.Use inverse tangent
21.8° left from vertical
Bell-Ringer 2/2
1.Is the giant, anniversary, sock-monkey at rest?
2.Is the net force zero or non-zero?
3.What are the external forces on the giant, anniversary, sock-monkey , if any at all?
Answer the questions regarding the giant, anniversary, sock-monkey on the front bench.
Normal Force• The bunny is at rest because the force of
gravity is balanced by a force coming up from the front bench.
• Any force applied to an object from a surface is called a normal force.
• All normal forces are exerted on an object from a surface with which the object is in contact.
• All normal forces are directed perpendicularly from the contact surface.
• When doing Physics problems involving forces, it is advantageous, and sometimes absolutely necessary to draw a free-body diagram.
• I was going to make a power-point on making a free-body diagram, but I found something better online.
• Everybody, get into groups and go back to the computer tables.
Free-Body Diagrams
Go to the LPHS website:– www.lincolnparkhs.org
– Navigate through these selections:
Academics>Teachers/Staff>Mr. Miklusak>Links
– Make sure to change the section to the “Free-Body Diagrams” category.
– You can try this thing as well.– http://www.lincolnparkhs.org/apps/pages/ind
ex.jsp?uREC_ID=174394&type=u&termREC_ID=&pREC_ID=links
Free-Body Diagrams
•Third law:– Third law: The mutual forces of action
and reaction between two bodies are equal, opposite and collinear.
– This has been paraphrased into: Every action has an equal and opposite reaction.
Newton’s Third Law
This is an object.
The orange object exerts a 10.0N force on the white object.The white object will exert an
equal and opposite force on the orange object.
•Third law:– Third law: The mutual forces of action and
reaction between two bodies are equal, opposite and collinear.
– This has been paraphrased into: Every action has an equal and opposite reaction.
Newton’s Third Law
This is an object.
The white object will exert an equal and opposite force on the orange object.
The orange object exerts a 9.0N force on the white one.
This object is on top.
•Third law:– Third law: The mutual forces of action and reaction
between two bodies are equal, opposite and collinear.
– This has been paraphrased into: Every action has an equal and opposite reaction.
Newton’s Third Law
These objects are in motion.The orange object exerts a 100.0N force on the white object.
The white object will exert an equal and opposite force on the orange object.