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FORCES AND FREE BODY DIAGRAMS
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What is a Force? A force is a push or a pull.
All forces have two properties: Direction and Size (magnitude) Units - Newton (N) It is equal to a A force acts ON one object FROM another object (an object cannot exert a force on itself!!)
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Types of Forces Weight (gravity) – always acts down (non-contact)
Normal – a force that acts perpendicular to a surface that an object is in contact with
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Normal force directions
Up You’re standing on level ground. Sideways A ladder leans up against a wall. You’re against the wall on the “Round Up” ride when the floor drops out. At an angle A race car takes a turn on a banked track An object on an incline Down You’re in a roller coaster at the top of a loop.
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Types of forces Friction – the force exerted by a surface as an object moves across it or makes an effort to move across it – acts parallel to surface and AGAINST motion Air Resistance – a special type of friction that acts upon objects as they travel through the air – acts up and is not constant, changes with speed
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Types of Forces Tension – a force that is transmitted through a string, rope, cable or wire when it is pulled tight by forces acting from opposite ends – acts away from object Applied - a force that is applied to an object by a person or another object
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Types of Forces Spring - the force exerted by a compressed or stretched spring upon any object that is attached to it
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Types of non-contact forces
Gravitational - a force that attracts two objects to each other (we’ll cover this later) Electrical – the force that attracts or repels two charged objects (this is Physics 2) Magnetic – attraction or repulsion that arises between electrically charged particles because of their motion (this is Physics 2)
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The meaning of each of these forces will have to be thoroughly understood to be successful during this unit. Ultimately, you must be able to read a verbal description of a physical situation and know enough about these forces to recognize their presence (or absence) and to construct a free-body diagram that illustrates their relative magnitude and direction.
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Free Body Diagrams A force diagram, which is also known as a free body diagram, is a sketch in which all the force vectors acting on an object are drawn with their initial points at the location of the object.
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When to use a free-body diagram
Always - every problem that has to do with forces!
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Steps to drawing a free body diagram
Pick one object to analyze Draw a box or dot to represent the object Draw an arrow to represent each force acting on the object Make sure the arrow is labeled, and shows the direction and relative size of the force
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Problem 1 A book is at rest on a table top. Diagram the forces acting on the book.
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Problem 1 The forces are balanced because the book is not moving
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Problem 2 An egg is free-falling from a nest in a tree. Neglect air resistance. Draw a free-body diagram showing the forces involved.
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Problem 2 The forces are unbalanced, so the egg will accelerate downward.
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Problem 3 A flying squirrel is gliding (no wing flaps) from a tree to the ground at constant velocity. Consider air resistance. A free body diagram for this squirrel looks like… Forces are balanced because constant velocity
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Problem 4 A rightward force is applied to a book at rest, in order to move it across a desk. Construct a free-body diagram for the book. Right and left forces are unbalanced Up and down forces are balanced (no up and down movement)
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Problem 5 A man drags a sled across loosely packed snow with a rightward acceleration. Draw a free-body diagram of the forces acting on the sled.
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Problem 6 A football is moving upwards toward its peak after having been booted by the punter. Neglect air resistance. Draw a free-body diagram of the football in mid-air. Remember force does not determine movement, it determines acceleration!!
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Problem 7 A car runs out of gas and coasts to a stop on flat ground. Draw a free body diagram of the forces acting on the car.
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Even though the car is coasting, there is still the dragging friction of the road (left pointing arrow) as well as gravity and normal forces. That is all the car is in contact with so we are done!
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What about the force of the car’s motion???
There is no such thing as force of motion. All forces must be exerted by an identifiable object (gravity is exerted by the earth) Only focus on what is happening NOW, not what happened earlier to get the car moving. If the motor is running, you will have a force to the right.
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Problem 8 A car parks on an incline. Draw a free body diagram of the forces acting on the car.
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Mary pulls on a lawnmower parallel to the ground
Mary pulls on a lawnmower parallel to the ground. The mower moves at a constant speed up the hill. Which free body diagram best represents the forces on the mower? x y x y 2 1 x y 3 x y 4
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1 2 4 3 Stacey pulls a mower at 40-degrees relative to the ground.
Which free body diagram best represents the forces on the mower? x 400 y y x 400 1 2 4 3 y x 400 x y 400
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The motion of a car is represented with the motion diagram below.
x o Which diagram best represents the forces exerted on the car by the Earth and the Earth’s surface? x y 1 x y 2 x y 3 4 y x y 5 x
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Which FBD below best represents the forces exerted on the ball as it moves UP (ignore air resistance)? 1 2 3 4
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Which FBD below best represents the forces exerted on the ball as it moves DOWN (ignore air resistance)? 1 2 3 4
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Which FBD below best represents the forces exerted on the ball at the TOP of its path?
2 1 4 3 5 No forces are exerted on the ball
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