Title: Newtons Laws
1Newtons Laws
2Isaac Newton
- Arguably the greatest scientific genius ever.
- Came up with 3 Laws of Motion to explain the
observations and analyses of Galileo and Johannes
Kepler. - Discovered that white light was composed of many
colors all mixed together. - Invented new mathematical techniques such as
calculus and binomial expansion theorem in his
study of physics. - Published his Laws in 1687 in the book
Mathematical Principles of Natural Philosophy.
3What is Force?
- A force is a push or pull on an object.
- Forces cause an object to accelerate
- To speed up
- To slow down
- To change direction
4Newtons First Law
- A body in motion stays in motion at constant
velocity and a body at rest stays at rest unless
acted upon by a net external force. - This law is commonly referred to as the Law of
Inertia.
5The First Law is Counterintuitive
Aristotle firmly believed this. But Physics B
students know better!
6Implications of Newtons 1st Law
- If there is zero net force on a body, it cannot
accelerate, and therefore must move at constant
velocity, which means - it cannot turn,
- it cannot speed up,
- it cannot slow down.
7What is Zero Net Force?
Physics
A book rests on a table.
Even though there are forces on the book, they
are balanced. Therefore, there is no net force on
the book. SF 0
8Diagrams
- Draw a force diagram and a free body diagram for
a book sitting on a table.
9Sample Problem
- A monkey hangs by its tail from a tree branch.
Draw a force diagram representing all forces on
the monkey
10Sample Problem
- Now the monkey hangs by both hands from two
vines. Each of the monkeys arms are at a 45o
from the vertical. Draw a force diagram
representing all forces on the monkey.
11Mass and Inertia
- Chemists like to define mass as the amount of
stuff or matter a substance has. - Physicists define mass as inertia, which is the
ability of a body to resist acceleration by a net
force. - Lets watch a video.
12Sample Problem
- A heavy block hangs from a string attached to a
rod. An identical string hangs down from the
bottom of the block. Which string breaks - when the lower string is pulled with a slowly
increasing force? - when the lower string is pulled with a quick jerk?
Top string breaks due to its greater force.
Bottom string breaks because block has lots of
inertia and resists acceleration. Pulling force
doesnt reach top string.
13Newtons Second Law
- A body accelerates when acted upon by a net
external force. - The acceleration is proportional to the net force
and is in the direction which the net force acts.
14Newtons Second Law
- ?F ma
- where ?F is the net force measured in Newtons (N)
- m is mass (kg)
- a is acceleration (m/s2)
15Units of force
- Newton (SI system)
- 1 N 1 kg m /s2
- 1 N is the force required to accelerate a 1 kg
mass at a rate of 1 m/s2 - Pound (British system)
- 1 lb 1 slug ft /s2
16Working 2nd Law Problems
- Draw a force or free body diagram.
- Set up 2nd Law equations in each dimension.
- SFx max and/or SFy may
- Identify numerical data.
- x-problem and/or y-problem
- Substitute numbers into equations.
- plug-n-chug
- Solve the equations.
17Sample Problem
- In a grocery store, you push a 14.5-kg cart with
a force of 12.0 N. If the cart starts at rest,
how far does it move in 3.00 seconds?
18Sample Problem
- A catcher stops a 92 mph pitch in his glove,
bringing it to rest in 0.15 m. If the force
exerted by the catcher is 803 N, what is the mass
of the ball?
19Sample Problem
- A 747 jetliner lands and begins to slow to a stop
as it moves along the runway. If its mass is 3.50
x 105 kg, its speed is 27.0 m/s, and the net
braking force is 4.30 x 105 N - a) what is its speed 7.50 s later?
- b) How far has it traveled in this time?
20Newtons Third Law
- For every action there exists an equal and
opposite reaction. - If A exerts a force F on B, then B exerts a force
of -F on A.
21Examples of Newtons 3rd Law
22Sample Problem
- You rest an empty glass on a table.
- a) How many forces act upon the glass?
- b) Identify these forces with a free body
diagram. - c) Are these forces equal and opposite?
- d) Are these forces an action-reaction pair?
23Sample Problem (similar to 17)
- A force of magnitude 7.50 N pushes three boxes
with masses m1 1.30 kg, m2 3.20 kg, and m3
4.90 kg as shown. Find the contact force between
(a) boxes 1 and 2 and (b) between boxes 2 and 3.
24Newtons 2nd Law in 2-D
- The situation is more complicated when forces act
in more than one dimension. - You must still identify all forces and draw your
force diagram. - You then resolve your problem into an x-problem
and a y-problem (remember projectile motion????).
25Forces in 2-D
26Forces in 2-D
27Forces in 2-D
28Forces in 2-D
29Forces in 2-D
30Sample Problem
- A surfer hangs ten, and accelerates down the
sloping face of a wave. If the surfers
acceleration is 3.50 m/s2 and friction can be
ignored, what is the angle at which the face of
the wave is inclined above the horizontal?
31Sample Problem
- How long will it take a 1.0 kg block initially at
rest to slide down a frictionless 20.0 m long
ramp that is at a 15o angle with the horizontal?
32Sample Problem
- An object acted on by three forces moves with
constant velocity. One force acting on the object
is in the positive x direction and has a
magnitude of 6.5 N a second force has a
magnitude of 4.4 N and points in the negative y
direction. Find the direction and magnitude of
the third force acting on the object.
33Mass and Weight
- Many people think mass and weight are the same
thing. They are not. - Mass is inertia, or resistance to acceleration.
- Weight can be defined as the force due to
gravitation attraction. - W mg
34Sample Problem
- A man weighs 150 pounds on earth at sea level.
Calculate his - a) mass in kg.
- b) weight in Newtons.
35Apparent weight
- If an object subject to gravity is not in free
fall, then there must be a reaction force to act
in opposition to gravity. - We sometimes refer to this reaction force as
apparent weight.
36Elevator rides
- When you are in an elevator, your actual weight
(mg) never changes. - You feel lighter or heavier during the ride
because your apparent weight increases when you
are accelerating up, decreases when you are
accelerating down, and is equal to your weight
when you are not accelerating at all.
37Going Up?
38Going Down?
39Sample Problem
- An 85-kg person is standing on a bathroom scale
in an elevator. What is the persons apparent
weight - a) when the elevator accelerates upward at 2.0
m/s2? - b) when the elevator is moving at constant
velocity between floors? - c) when the elevator begins to slow at the top
floor at 2.0 m/s2?
40Sample Problem
- A 5-kg salmon is hanging from a fish scale in an
elevator. What is the salmons apparent weight
when the elevator is - a) at rest?
- b) moving upward and slowing at 3.2 m/s2?
- c) moving downward and speeding up at 3.2 m/s2?
- d) moving upward and speeding up at 3.2 m/s2?
41Announcements 11/15/2009
- Lunch bunch today!!!!
- Next week, no lunch bunch. You must turn in your
lab next week on your normal lunch bunch day. - Beginning tomorrow, bring textbooks to class. I
will not be here, and Ms. Jacoby may be giving
you some assignments for review period. You will
also be reviewing homework done during the week,
and correcting the problems in class. - Exam next Tuesday
- All uncollected homework will be due on Tuesday.
- Classwork packet will be due on Tuesday.
- This exam will go on NEXT grading period.
- Clicker Quiz.
- Today Normal Forced
42Normal force
- The normal force is a force that keeps one object
from penetrating into another object. - The normal force is always perpendicular a
surface. - The normal exactly cancels out the components of
all applied forces that are perpendicular to a
surface.
43Normal force on flat surface
- The normal force is equal to the weight of an
object for objects resting on horizontal
surfaces. - N W mg
44Normal force on ramp
- The normal force is perpendicular to angled ramps
as well. Its always equal to the component of
weight perpendicular to the surface.
N mgcos?
45Normal force not associated with weight.
- A normal force can exist that is totally
unrelated to the weight of an object.
N applied force
46The normal force most often equals the weight of
an object
47but this is by no means always the case!
48Draw a free body diagram for the skier.
49Normal force is perpendicular to the surface.
50Gravitational force is straight down toward the
center of the earth.
W
51Free body diagram contains only two forces.
N
W
52Sample problem
- A 5.0-kg bag of potatoes sits on the bottom of a
stationary shopping cart. Sketch a free-body
diagram for the bag of potatoes. Now suppose the
cart moves with a constant velocity. How does
this affect the free-body diagram?
53Sample problem
- Find the normal force exerted on a 2.5-kg book
resting on a surface inclined at 28o above the
horizontal. - If the angle of the incline is reduced, do you
expect the normal force to increase, decrease, or
stay the same?
54Sample problem
- A gardener mows a lawn with an old-fashioned push
mower. The handle of the mower makes an angle of
320 with the surface of the lawn. If a 249 N
force is applied along the handle of the 21-kg
mower, what is the normal force exerted by the
lawn on the mower?
55Sample problem
- Larry pushes a 200 kg block on a frictionless
floor at a 45o angle below the horizontal with a
force of 150 N while Moe pulls the same block
horizontally with a force of 120 N. - a) Draw a free body diagram.
- b) What is the acceleration of the block?
- c) What is the normal force exerted on the block?