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Write down everything you know about force. Things you may want to include:◦ Definition◦ Formula◦ SI Units◦ Examples
Warm-Up
A force is a push or pull Forces are vectors Represented by “F” Has SI units of Newtons When all forces on an object are added, the
result is called a net force. A non-zero net force causes an acceleration
Force
2s
mkgN
Fg: Force of gravity; weight – down towards center of Earth
FN: Normal force – perpendicular to surface object is on
Ff: Friction – opposes motion when two surfaces slide against each other
FT: Tension – in direction of string/rope/chain Fdrag: Drag – opposes motion when an object
moves through a gas or liquid (i.e. air resistance)
Special Types of Forces
Vectors have a magnitude and direction Vectors can be depicted by an arrow When drawing multiple vectors, their arrow
lengths should be proportional to the vector magnitudes
Vector Review
1. Draw a dot to represent the object2. Draw an arrow for each force on the object
◦ Arrows should start at the dot and point away◦ Arrow lengths should be proportional to force
magnitude. For unknown forces, estimate length
3. Label each arrow4. Choose a direction to be positive and
indicate it on the side of the diagram◦ If object is moving, have positive direction be in
direction of motion.
Free Body Diagrams
A box is pushed along the floor at a constant speed. Draw a free body diagram for the box.
Example 2
A student is pushing against a table, but not hard enough to move it. Draw a free body diagram for the table.
You-Try #2
Power Tower is a thrill ride at Cedar Point, the roller coaster capital of the world. At the beginning of the ride, it accelerates the riders upwards. Draw a free body diagram of a rider at the beginning of a Power Tower ride.
Warm-Up: October 24, 2011
Two horizontal forces, 273 N and 131 N, are exerted on a canoe in the same direction. Draw a free body diagram and find the net horizontal force on the canoe.
Now imagine the same two forces are acting in opposite directions. Draw a free body diagram and find the net horizontal force on the canoe.
Example 3
Al and Bob are playing tug-of-war (two teams pulling on a rope in opposite directions) against Chris and Dan. Al pulls with a force of 127 N, Bob pulls with a force of 93 N, Chris pulls with a force of 104 N, and Dan pulls with a force of 119 N. Draw a free-body diagram and calculate the net force on the rope.
You-Try #3
1. An object at rest will stay at rest unless acted upon by a non-zero net force. An object in motion will stay in motion unless acted upon by a non-zero net force.
2. The acceleration of an object is equal to the net force acting on the object divided by the object’s mass.
3. For every force, there is an equal and opposite force.
Newton’s Laws
The driver of a car hits the accelerator and causes a net force of 3.00 x 103 N. If the car has a mass of 1.70 x 103 kg, what is the resulting acceleration?
Example 4
A chair is pushed with a force of 93 N, and experiences a friction force of 11 N. If the chair accelerates at 1.7 m/s2, what is the mass of the chair?
You-Try #4
A 2.5 kg rock is falling off the edge of a cliff. Gravity is pulling it down with a force of 24.5 N. There is a drag force of 7.0 N. Draw a free-body diagram, and solve for the acceleration of the rock.
Warm-Up: October 25, 2011
Near surface of Earth, g = 9.8 m/s2
You must memorize this number An object in free fall will have this initial
acceleration The weight of an object is given by Fg = mg
Acceleration due to Gravity (g)
A skydiver with a mass of 73 kg free-falls. At one point, he has an acceleration of 8.3 m/s2. What is the force due to air resistance at this point?
Example 5
A rope is pulling a bucket of water out of a well. The bucket of water has a total mass of 25 kg. What must the tension force be in order to accelerate the bucket at 0.60 m/s2.
You-Try #5
After a few seconds of falling, the drag force on a 50.0 kg skydiver is 490 N. Draw a free-body diagram of the skydiver and calculate the acceleration of the skydiver.
Warm-Up: October 26, 2011
Forces are balanced if there is no net force For two forces in opposite directions, arrows
should be the same length. For multiple forces, sum of arrow lengths in
opposite directions should be the same. Results in a zero acceleration (Fnet=ma) in
that direction Zero acceleration constant velocity That velocity could be zero (no motion)
Balanced Forces
Forces are unbalanced if there is a non-zero net force.
Arrows are different lengths. Results in an acceleration in the direction of
the longer arrow.
Unbalanced Forces
If all forces are balanced (in both x and y directions), then the system is in equilibrium.
There is zero acceleration Zero acceleration constant velocity That velocity could be zero (no motion)
Equilibrium
Fdrag = -Fg (Equal magnitudes, opposite directions)
Zero net force zero acceleration constant velocity
The fastest an object can free-fall
Terminal Velocity
A crane attached to a chain is being lowered. If the crane has a mass of 105 kg and is accelerating downward at a rate of 2.45 m/s2, what is the tension force between the chain and crane?
Warm-Up:October 28, 2011
You will work in groups of 3-4 Mr. Szwast will assign groups Work on each problem together (DO NOT
split up the work) Each person should record their work and
answers Mr. Szwast will check each individual’s work
during class There will be some presentations of answers The worksheet may be collected at any
point in the future
Groupwork
Every Halloween at Caltech, undergrads drop pumpkins (frozen by liquid nitrogen) from the top of Millikan Library, 42 meters above the sidewalk below. Ignoring air resistance, how long does it take until the pumpkin smashes into the sidewalk?
Warm-Up: October 31, 2011
Return to your groups You have 15 minutes to finish Presentations will follow
◦ Mr. Szwast will choose which member(s) of your group will present
Chapter 4 Groupwork
Chapter 4 Groupwork Answers
NF
sts
ma
md
NF
s
ma
st
NF
kgm
push
net
net
3
2
4
2
2
102.1)6
45.2
00.1)5
0.9
101.7
34)4
2.4)3
0.15)2
1000.1)1
Fg: Force of gravity; weight – down towards center of Earth
FN: Normal force – perpendicular to surface object is on (not present if object is in air)
FT: Tension – in direction of string/rope/chain Ff: Friction – opposite direction of motion or
applied force Fdrag: Drag – air resistance; opposite
direction of motion
Review of Forces
A sphere with a weight of 49 N is dropped off the top of a building. Ignore air resistance. Draw a free-body diagram. After 1.0 second, what is the sphere’s◦ Acceleration◦ Velocity◦ Distance
Example 6: Warm-Up 10-11-2010
DO NOT WRITE ON THE HANDOUT Homework was scored out of 10 points (4
extra credit point possible) If you earned less than 7, copy all problems,
work, and answers and turn them in to receive 7 points
If you earned more than 7 points, correct what you missed on your paper.
After you finish, get groupwork from Mr. Szwast and correct what you missed with your group
TURN IN THE HANDOUT BEFORE YOU LEAVE
Homework Corrections
An object near the surface of the earth is being acted on by only one force.
1. What must this force be?2. In what direction is the force?3. In what direction is the object accelerating?4. Can we conclude in what direction the object
is moving?5. Assume the initial time, distance, and velocity
are zero. After exactly 3 seconds, what is the object’s
a) Accelerationb) Velocityc) Distance
Warm-Up October 14/15, 2010
A sphere with a weight of 98 N is dropped off the top of a building. Ignore air resistance. Draw a free-body diagram. After 2.0 seconds, what is the sphere’s◦ Acceleration◦ Velocity◦ Distance
Warm-Up: October 18, 2010
Draw a free body diagram showing all the forces that are acting on you right now.
Warm-Up: October 19, 2010
You will work with one partner. Your partner will be the person assigned to
sit at the same table as you. If there is nobody else at your table, Mr.
Szwast will assign you a partner. You will have about 25 minutes to complete
the worksheet. Random students will then be called to the
board to draw each free body diagram. You will turn the worksheet in before you
leave.
Classwork: Free Body Diagrams
Define, in your own words, the following terms:
Balanced Unbalanced Equilibrium
Warm-Up: October 21/22, 2010
Fg: Force of gravity; weight – down towards center of Earth
FN: Normal force – perpendicular to surface object is on (not present if object is in air)
FT: Tension – in direction of string/rope/chain Ff: Friction – opposite direction of motion or
applied force Fdrag: Drag – air resistance; opposite
direction of motion
Review of Forces