Basic Information: Force: A push or pull on an object Forces can cause an object to: Speed up Slow...
-
Upload
lambert-mckenzie -
Category
Documents
-
view
225 -
download
0
Transcript of Basic Information: Force: A push or pull on an object Forces can cause an object to: Speed up Slow...
Basic Information:Force: A push or pull on an object
Forces can cause an object to:•Speed up•Slow down•Change direction
Basically, Forces can cause an object to …
Accelerate!
Forces can act as:1.Contact Forces2.Field Forces
Forces are vectors•Have magnitude and direction
Units: Newtons
•Force of Gravity (Fg) aka Weight (W)•Definition: force of attraction acting between objects•Always acts in the downward direction
•Normal Force (FN)•Definition: Force exerted by the surface on the object•Always acts perpendicular to the surface
•Applied Force (FA)•Definition: Force applied by a person or object•Can be in any direction
•Friction Force (Ff)•Definition: force that resists motion caused by the surfaces of objects in contact with each other •Always acts in the opposite direction of the moving object
•Tension Force (FT)•Definition: force applied by rope or cable on an object•Can act in any direction
•Net Force (FNet)•Definition: The sum of all forces acting on an object•Can act in any direction
Newton’s 1st Law of MotionEvery object will persist in its state of rest or in its state of uniform motion (constant velocity) in a straight line unless it is acted upon by an external force
•Summary: An object at rest stays at rest. An object in motion stays in motion unless a net force acts on it
Also known as the law of inertia
More mass = more inertia
At rest: with no force
Stays at rest
Unless an external force acts on it
In motion:
Stays in Motion:
Unless an external force acts on it
Newton’s 2nd Law of Motion
When a force is applied, the mass accelerates.Force = mass x acceleration
Relationship: Force and Acceleration = direct relationshipMass and Acceleration = inverse relationship
More Force = More Acceleration
More Mass = Less Acceleration
Newton’s 3rd Law of motionFor every action, there is an equal and opposite reaction
All forces come in pairs According to Newton, whenever objects A and B interact with each other, they exert forces upon each other. When you sit in your chair, your body exerts a downward force on the chair and the chair exerts an upward force on your body. There are two forces resulting from this interaction - a force on the chair and a force on your body.
All materials have some degree of roughness. This roughness creates bumps and valleys on the surfaces of the materials. This roughness creates friction.
Friction causes an object to slow down and come to a stop. Friction always acts in opposite direction of the moving object.
•Friction when the object is stationary
•The type of friction with the greatest amount of force
Friction when the object is moving
•Rolling Friction•Sliding Friction
The amount of friction is dependent upon:•The types of surfaces in contact•The force between the object and surfaceFriction Formula:Ff=FN Variables:
FfFriction force: coefficient of frictionFN: Normal Force
Mass is the amount of matter in an object. An object’s mass does not change.Weight is based on the object’s mass and the acceleration due to gravity at that location. If the acceleration due to gravity changes, then the weight changes. The acceleration due to gravity on Earth is -9.81 m/s2.The acceleration due to gravity on the moon is -1.67 m/s2. Therefore, the object will weigh more on the Earth than on the moon.
•Gravity is a force of attraction between objects. •All objects have a gravitational force. •The force of gravity is found using the formula:•Fg = mass x acceleration due to gravity
•A simple sketch used to show all the forces that are acting on an object.
•Draw a quick sketch of the object. Often a box will do just fine.
•For every force acting on it, draw a vector arrow
•Label each arrow with the appropriate forces
A person pushes a box to the right across the floor. Draw a free-body diagram.
A 24.0 kg mentos and coke bottle rocket exerts 350.0 N of force in being shot upward. What’s the rocket’s acceleration?
A 1682 kg car accelerates across the level street at
2.45 m/s2. If the engine applies 5250 N of force to the road, what is the friction force? What is the coefficient of friction?