1. Physical Science Chapter 12
Forces and
Newton’s Laws of Motion

2. The Nature of Force By definition, a Force is a push or a pull.
Just like Velocity & Acceleration Forces have both
magnitude and direction
components

3. Forces
A force causes an object to move, accelerate, change speed, or direction
Forces are represented by:
Arrows
Direction
Strength
represented by the length of the arrow

4. Balanced & Unbalanced Forces
Balanced forces – opposite and equal forces acting on the same object
result in NO motion of the object
Unbalanced forces – two or more forces of unequal strength or direction acting upon on an object
results in motion of the object

5. Balanced or Unbalanced Forces?
Unbalanced but WHY?
Balanced but Why?

6. Force/Free body diagrams (to show forces)
used to show the relative magnitude and direction of all forces acting upon an object in a given situation.
a special example of vector diagram
size of the arrow represents
amount of force

7. Force / Free-body Diagrams
direction of the arrow shows the direction which the force is acting
each force arrow is labeled
The object is usually represented by a box. Force arrows are drawn from the center of the box outward in the direction which the force is acting.
(look at types of forces also)

8. Combining Forces
Net force: All forces are added or subtracted to create one total force
If net force is Zero then there is no change in motion.
If there is a net force there is an acceleration

9. Newton’s 1st Law of Motion(cont.)
If you roll a ball across the floor, why does it eventually come to a stop.
Is there a force acting against it?
If so, what is it?
Friction—force that opposes motion.
Always acts in the direction opposite of motion.
Anything slowing this Coke as it slides across the bar?

10. Newton’s 2nd Law of Motion
called the “Law of Acceleration”.
Relates force, mass, and acceleration.
Force and acceleration directly related.
Mass and acceleration inversely related.

11. Newton’s 2nd Law of Motion(cont.)
Uses this Formula: F = m a
Where:
F = force in Newton’s(N)
m = mass in kilograms(kg)
a = acceleration in m/s2

12. Ex. What force is required to accelerate a 1500 kg car by a rate of 1
Ex. What force is required to accelerate a 1500 kg car by a rate of 1.5 m/s/s?
Given:
m = 1500 kg
a = 1.5 m/s/s
F = ?
F = m a
F = 1500kg(1.5 m/s/s)
F = 2250 N

13. Ex. A force of 290 N is applied to a 20 kg rock
Ex. A force of 290 N is applied to a 20 kg rock. At what rate will the rock accelerate?
F = m a
a = 14.5 m/s2
Given:
m = 20 kg
a = ?
F = 290 N

14. Ex. A force of 140 N is applied to a mover’s dolly to accelerate a load of Cokes across the grocery store at 3 m/s2. What is the mass of the load of Cokes?
Given:
F = 140 N
a = 3 m/s2
m = ?

15. A force is applied to accelerate a 50 kg mass at a rate of 2. 5 m/s/s
A force is applied to accelerate a 50 kg mass at a rate of 2.5 m/s/s. What force is required?
20 N
25 N
120 N
125 N

16. D
F = 125 N

17. 3000 m/s/s 240 m/s/s 20.8 m/s/s .05 m/s/s
A 250 N force is applied to a 12 kg mass. At what rate will the object accelerate?
3000 m/s/s
240 m/s/s
20.8 m/s/s
.05 m/s/s

18. C
A = 20.8 m/s/s

19. Newton’s 3rd Law
For every action, there is an equal but opposite reaction.
Forces always occur in pairs!!

20. Which of the following scenarios does not represent Newton’s 3rd Law?
A rocket being launched into space.
A book resting on a desk.
A person paddling a canoe.
A large force pushing on a small mass, causing it to accelerate.

21. Choice D
is Newton’s 2nd law.

22. Force Problem
What is the net force on an object being pulled toward the west with a force of 30N and another force pulling the object toward the east with a force of 75N?

23. Types of Friction
a force that opposes the motion of objects that touch as they move past each other
acts at the surface where objects are in contact
All moving objects encounter friction
Without it most motion would be impossible
4 types, static, sliding, rolling, fluid

24. Static Friction The force that keeps an object from moving
It is the largest frictional force
Always opposite direction of the applied force
Pushing a Car
Walking

25. Sliding Friction
Once the object is in motion it experiences sliding friction
Opposite direction from applied force
Less than static friction so less force is needed to keep it in motion

26. Rolling Friction
As something rolls, the object and floor bend slightly
This bend causes rolling friction
It is a much smaller force than static friction
As much as 1000 times smaller
Allows you to move heavy objects
Ball bearings reduce friction

27. Fluid Friction It opposes the motion in the liquid
Like swimming, it is hard to move
If you are in the air, fluid friction is called air resistance
At higher speeds it is very noticeable

28. Force of Gravity a force that acts between two objects
an attractive force, pulls objects together
causes objects to accelerate downward
Falling objects, gravity pulls down, What pushes up?
air resistance acts in opposite direction
Terminal Velocity- when Gravity and air resistance cancel each other out (velocity of falling body becomes constant)
Skydiving and falcons
Forces Montage

29. Terminal Velocity
See elephant problem on page 10 and 11 of Netwon’s laws Smart Notebook file!!

30. Projectile Motion When an object not only goes up and down but out.
It is a curved path
Air resistance and gravity are the only forces acting on a projectile
What falls faster, an object that falls straight down, or one that has a horizontal velocity? See Videos
They are very good….
Myth busters bullet #2
This one shows the end?

31. May the “forces”be with you and not against you!! haha

32. Forces Webquest: Do if I tell you. Depends on Time..
Log on to
Click on Subscriber Logon at the top right.
For the student username, type “hickoryridge”
In the “Quick Launch” box, type “44” and hit enter.
By the way, the first site you use (www. physicsclassroom.com) is a GREAT site to seek extra help on physics material!

33. Class Activity- You will do later. Balanced and Unbalanced Forces
1.Two tugboats are moving a barge. Tugboat A exerts a force of 3000 newtons on the barge. Tugboat B exerts a force of 5000 newtons in the same direction. What is the combined force on the barge?
2.Draw arrows showing the individual and combined forces of the tugboats in #1.

34. 3.Now suppose that Tugboat A exerts a force of 2000 newtons on the barge and Tugboat B exerts a force of 4000 newtons in the opposite direction. What is the combined force on the barge?
4.Draw arrows showing the individual and combined forces of the tugboats in #3.

35. 5.Could there ever be a case when Tugboat A and Tugboat B are both exerting a force on the barge but the barge doesn't move? Draw arrows showing the individual and combined forces in such a situation.
Ck KEYS… for Feedback..

36. Newton’s Laws of Motion
Begins Here!!

37. Great Scientists
Aristotle- Incorrectly said force was required to keep an object in constant motion
Galileo- with no resistance objects would move indefinitely
Newton- based on Galileo’s findings he came up with his law’s of motion

38. SASinschools interactivity Do if I Tell you.. Or skip
Free Fall #1196
Just show video clip at beginning

39. Newton’s 1st Law of Motion
AKA The Law of Inertia
Inertia- an objects tendency to resist
changes in motion
an object at rest will remain at rest, and an object in motion will remain in motion at a constant velocity until acted on by another force.
Remember:
The greater the mass of an object the greater the inertia

40. Eureka Inertia Video
Eureka Inertia Video

41. Check your Understanding on Newton’s first law

42. You need to remember this about Inertia!!!
Mass is the measure of inertia of an object!!!
Remember: The greater the mass of an object the greater the inertia
So, which would have more inertia? Bowling ball
0.1 kg baseball traveling at 20 m/s
5 kg bowling ball traveling at 3 m/s
10 kg sled traveling at 0 m/s
0.001 kg bumblebee traveling at 2 m/s
Which would have the least?

43. Newton’s 2nd Law
The acceleration of an object is equal to the net force acting on it divided by the objects mass
A= F/m so F=ma
Acceleration is always in the same direction of the net force
An object will have greater acceleration if a greater force is applied

44. Newton’s Second Law of Motion F=ma
Force = mass x acceleration
F=ma ; a= F/m ; m= F/a
What is the basic unit for mass?
Kilogram
What is the basic unit for acceleration?
Meter/sec/sec
Therefore the basic unit for Force is
(kilogram)( meter/sec/sec)
An object with a mass of 1 kg accelerating at 1 m/s/s has a force of 1 Newton

45. Eureka – Weight vs. Mass

46. Newton’s 2nd Law & Force of Gravity
Have you heard of the FORCE of gravity?
Gravity: the force that pulls objects towards each other
Since gravity is a force it also obeys Newton’s second law
F=ma
Since objects fall at the same speed, their acceleration is the same.
All objects accelerate at the rate. Here on Earth the rate is:
Ag=9.8 m/s2 Or
Ag=32 ft/s2
With this experiment, Galileo proved Aristotle wrong
Air resistance keeps things from falling equally
With this experiment, Apollo 15 astronauts proved Galileo right.
(link to You Tube)

47. Weight and Mass Weight is the force of gravity acting on an object
Weight (N) = mass (g) x acceleration of gravity (m/s2)
Note: just a version of F=ma, F = mass x gravity
FYI:
1 pound = Newtons
so 1/4 lb is slightly more that 1 N
so a 1/4 lb burger is a "Newton" burger

48. Newton’s 2nd Law & Weight
F=ma
So, weight is a type of Force
The formula for weight: Weight = mass x Ag
Since Ag= 9.8 m/s2 then
Weight = mass x 9.8 m/s2
Remember:
1 newton = 0.22 pounds

49. Your weight on other planets & 3 different types of stars

50. Newton’s 2nd Law

51. PRACTICE: Look thru Text Ch 12
Assessment p.385 in text Questions #1-20
Also p. 387 #1-6

52. Answers p
1. C
2. A
3. A
4. D
5. A
6. C
7. B
8. A
9. D
10. B

53. 11. The Net Force is zero.. Crate doesn’t move
13. Yes, all of the forces can cancel one another
14. It Accelerates
15. Static Friction
17. Air Resistance also increases pushing up. Obj will reach terminal velocity.
18. Weight is the FORCE of Gravity. Mass is amount of MATTER AN OBJ CONTAINS.
20. The MASS of each vehicle. p = mv

54. F= ma Math Practice p.367 & 369
A boy pushes forward a cart of groceries with a total mass of 40.0 kg. What is the acceleration of the cart if the net force on the cart is 60.0 N?
What is the upward acceleration of a helicopter with a mass of 5000 kg if a force of 10,000 N acts on it in an upward direction?

55. F= m a formula problems…
An automobile with a mass of 1200 kg accelerates at a rate of 3.0 m/s2 in the forward direction. What is the net force acting on the automobile?
A 25-N force accelerates a boy in a wheelchair at 0.5 m/s2 What is the mass of the boy and the wheelchair?

56. During a test crash, an air bag inflates to stop a dummy’s forward motion. The dummy’s mass is 75 kg. If the net force on the dummy is 825 N toward the rear of the car, what is the dummy’s deceleration?

57. A bicycle takes 8.0 seconds to accelerate at a constant rate from rest to a speed of 4.0 m/s. If the mass of the bicycle and rider together is 85 kg, what is the net force acting on the bicycle? (Hint: First calculate the acceleration.)
a=(vf-vi)/t
= (4.0 m/s) / 8.0 s
= 0.50 m/s2
F=ma
= 85 kg x 0.50 m/s2
= 43 N

58. Good Videos
Eureka – Acceleration I
Eureka – Acceleration II

59. Newton’s 3rd Law of Motion:
For every action there is an equal & opposite reaction.
This means every time a force is applied in one direction an equal force is applied in the opposite direction.
If an object is not in motion, then all forces acting on it are balanced and the net force is zero!

60. Action-Reaction Forces
If you push against a wall it pushes back
These forces can cause motion, like a swimmer
They do not cancel each other out, because they act on different objects.
2 ice skaters

61. Rocket man video clip (stop after balloon)
Space Walk

62. Part 4 Make sure you finish this.

63. Momentum is sm p. p = mv The product of an object’s mass x velocity
Influences how easily an object can be stopped
High velocity or high mass cause a high momentum
For some reason, maybe because mass is designated as “m” in formulas, momentum is designated as “p”.
Therefore: p = mv
The unit for mass is kg, the unit for velocity is meter/second, therefore the unit for momentum is kg m/sec

64. Which has more momentum? p = mv
a kg golf ball with a speed of 60.0 m/s
a 7.0 kg bowling ball with a speed of 6.0 m/s
.046 kg x 60.0 m/s = 2.8 kg m/s
7.0 kg x 6.0 = 42 kg m/s

65. Conservation of Momentum:
When two or more objects interact (collide) the total momentum before the collision is equal to the total momentum after the collision
If no net force acts on a system, then the total momentum of the system does not change
In a closed system, loss of momentum of one object equals the gain in momentum of another object

66. Momentum – 2 moving objects
During this collision the speed of both box cars changes. The total momentum remains constant before & after the collision. The masses of both cars is the same so the velocity of the red car is transferred to the blue car.

67. Momentum – 1 moving object
During this collision the speed red car is transferred to the blue car. The total momentum remains constant before & after the collision. The masses of both cars is the same so the velocity of the red car is transferred to the blue car.

68. Momentum – 2 connected objects
After this collision, the coupled cars make one object w/ a total mass of 60,000 kg. Since the momentum after the collision must equal the momentum before, the velocity must change. In this case the velocity is reduced from 10 m/sec. to 5 m/sec.

69. Momentum Videos
Bill Nye – Momentum
Momentum and collisions video clip

70. Eureka – Momentum (Speed)

71. Forces that can be found anywhere in the universe
Universal Forces
Forces that can be found anywhere in the universe

72. Electromagnetic Force
Electric and Magnetic Forces are the only forces that can both attract and repel
Electric forces- between charged particle, positive attracted to negative
Clothes in a dryer
Magnetic forces- N and S poles, opposites attract, likes repel

73. Nuclear Forces
Two forces- a strong and a weak force hold an atom together
The strong nuclear force overcomes the protons repulsion force
This force is over 100x stronger than electric forces
The weak force is involved in radioactive processes

74. Gravitational Force Attractive force between any two masses
This force is very small compared to all the rest
Newton came up with the Law of Universal Gravitation, which explains how we can find the gravitational force of any object
A large mass is required for gravity to be felt

75. Gravity is relational to distance
The further apart two objects are the less the gravitational force
Gravity still has pull over millions and millions of miles apart
As distance doubles the force gets quartered

76. Eureka - Gravity

77. The Earth Moon System
The moon stays in orbit because of Earth’s gravity
It works very similar to a centripetal force
It pulls in on an object
So as the moon follows this circular path, it’s gravitational force has an affect on Earth.

78. Satellites Satellites stay in orbit with centripetal force of gravity
If it were to slow down it would lose altitude

79. Physical Science Formula Reference Sheet

80. Eureka - Mass

81. Tacoma Bridge Collapse

82. Newton’s Laws Tutorial
Having problems? Try doing this tutorial:

83. Video Clips on Newton’s Laws in case you need more!!!
Newton’s Laws of Motion
Another Newton’s Laws of Motion Video

84. There is a 2nd ppt – for this Chapter 12.
In Class or at HOME - be sure to run thru
Chapt 12 : Force Diagrams & Newton’s Laws ppt