1. Law of Inertia:
*If an object is motionless, it will stay motionless unless acted upon by some force.
*If an object is moving, it will move in a straight line unless acted upon at an angle by some force.
*If an object is moving at a constant speed or velocity, it will continue at the speed unless acted upon by some force.

2. The Truck and Ladder
an object in motion continues in motion with the same speed and in the same direction - unless acted upon by an unbalanced force.

3. *A force can cause the motion of an object to change
Changing motion
*A force can cause the motion of an object to change

4. Balanced and Unbalanced Forces

5. What is a Force ? Force is a Push or Pull on an object.
Unit of Force is always measured in Newton.

6. Balanced forces do not cause a change in motion.
The force exerted by each person is equal
but they are pushing in opposite directions

7. Balanced Forces
Balanced forces are equal and opposite in direction.
Ex: newtons newtons

8. Balanced forces in action is in a tug of war.
They are equal in size and opposite in direction.
the resulting force is zero and there is no change in motion.

9. unbalanced forces always cause a change in motion.
They are not equal and opposite.

10. Unbalanced forces are unequal and opposite to each other.
Example:
2 Newton Newton

11. A net force is found by subtracting two opposite forces. 9 N 5 N . .
9 N - 5 N = 4 N

12. What is Friction? appears whenever two things rub against each other
No matter which direction something moves in, friction pulls it the other way
*Move left - pulls right.
*Move up - pulls down.

13. Sticking together
Stronger the force pushing the two surfaces together.
The micro welds will come in contact.
To break these micro welds or move one surface over other ,a force must be applied.

14. Static Friction 2.Sliding Friction 3.Rolling Friction 4.Fluid friction
Four types of friction
Static Friction
2.Sliding Friction
3.Rolling Friction
4.Fluid friction

15. Static Friction .
Friction between two surfaces that are not moving past each other.
Act in the direction opposite to that of the applied force

16. Sliding friction when two solid surfaces slide against each other.
Is less than static friction
Factors affecting sliding friction
include weight (normal force)
the stickiness of the two surfaces

17. Rolling Friction
Friction between a rolling object and the surface it rolls on.
is much less than static or sliding friction
Ex:easier to pull a load in a wagon rather than dragging it.

18. Fluid Friction Opposes the motion of an object through the fluid .
Ex: Stirring a cake batter
Higher the speeds ,greater the friction
Ex: Bicyclists and speed skaters wearing a racing suits to reduce the air resistance

19. Free Fall and the Acceleration of Gravity
A free-falling object is falling under the influence of gravity
any object which is moving and being acted upon only be the force of gravity is said to be "in a state of free fall." .

20. Elephant and Feather - Free Fall
if the elephant weighs more and experiences a greater downwards pull of gravity compared to the feather, why then does it hit the ground at the same time as the feather?

21. Elephant and Feather - Free Fall
*In the absence of air resistance, the elephant and the feather strike the ground at the same time.

22. Newton's second law The force/mass ratio is the same for each.
The greater mass of the elephant requires the greater force just to maintain the same acceleration as the feather.

23. Law of Gravitation
Anything that has mass is attracted by the force of gravity.
The attractive force depends on the mass of the objects.
Gravitational acceleration is always going to be 9.8 m/s2

24. Projectile Motion
Horizontal , .Motion a Vertical Motion

25. When an object moves in a circle, two forces affect its motion.
Circular Motion
When an object moves in a circle, two forces affect its motion.
Inertia pulls it outward, trying to resist changes in motion.

26. Centripetal force
attempts to pull the moving object toward the center of the circle that it is moving in.

27. If inertia & centripetal force are equal (balanced), the object will move in a circular path.

28. Inertia tries to pull off road.
If inertia equals friction, car stays on road.
Friction tries to keep on road.

29. Newton's Second Law
The net force acting on an object causes the object to accelerate in the direction of the net force
F is the net force in N,
m is the mass of an object in kg and
a is its acceleration in m/s2.

30. Mass Vs. Weight
Fw = m. ag
Fw or w = force of weight (newton, N)
M = mass (kilogram, kg)
Ag or g = gravitational acceleration(9.8m/s2 or m/s/s)

31. Mass Vs. Weight 1 2 3 4 5 Is always a constant at any time
Fw =mag Fw or w = force of weight
ag or g =gravitational
acceleration(9.8m/s2 ) 1
Is always a constant at any time
Depends on gravity at the place 2
Is measured in kilograms in SI unit
Is measured in Newtons (Not in Kilograms as one might think 3
Is measured using balance
Is measured using Scales 4
Can never be Zero
Can also be Zero 5
Is an intrinsic (the essential nature) property of a body and is independent of external factors
Depends on
1.Mass of object which is attracting it
2.Force with which it is being attracted (which in turn depends on the distance between the two

32. 1.What is the weight of an infant whose mass is 1.76kg?

33. 2.What is the weight of a locomotive with a mass of 18,000kg?

34. 3.An F-14’s mass is 29,545 kg. What is its weight?

35. 4.What is the mass of a runner whose weight is 648 N?

36. 5.A baseball has a mass of 0.5 kg. What is its weight?

37. 6.A sled has a mass of 28 kg. What is the weight of the sled?

38. The Third Law of Motion

39. Newton’s Third Law of Motion
States that for every action, there is an equal and opposite reaction.

40. Action-Reaction Pairs
All forces come in pairs
One object exerts a force on a second object and the second object exerts a force on the first that is equal in size and opposite in direction

41. Newton's Third Law of Motion
For every action, there is an equal and opposite reaction.

42. Action-Reaction Pairs Examples
Propulsion of Fish
A - Fish use fins to push water backwards R- Water pushes the fish forwards

43. Action-Reaction Pairs Examples
Flying motion of birds
A - Wings of birds pushes air downwards R - The air pushes the bird upwards

44. Action-Reaction Pairs Examples
Rocket Propulsion
A - Rocket engine pushes the gases out the back of the rocket R - The gases push the car forward

45. This law states that there are TWO objects BUT…
Remember
This law states that there are TWO objects BUT…
Only ONE Force

46. A swimmer is accelerating forward
You Try Some
A swimmer is accelerating forward
Action - The swimmer pushes against the water
Reaction - the water pushes back on the swimmer and pushes her forward.

47. A ball is thrown against a wall
Action - The ball puts a force on the wall
Reaction - the wall puts a force on the ball so the ball bounces off.

48. A person diving off a raft
Action - The person puts a force on the raft pushing it
Reaction - raft puts a force on the diver pushing her in the opposite direction.

49. Last one!!!!
Action - A person pushes against a wall
Reaction - the wall exerts an equal and opposite force against the person

50. The flying motion of birds
The wings of a bird push air downwards.
the air must also be pushing the bird upward
The size of the force on the air equals the size of the force on the bird

51. Driving down the road, a firefly strikes the windshield of a bus
Each force is the same size

52. Momentum
Momentum is the property a moving object has due to its mass and velocity.
Momentum =(mass)(velocity) .
p = m x v

53. Momentum
A large object has a large momentum because of its large mass.(example- a ship)
A fast moving object has a large momentum because of its large velocity.(ex-a bullet)

54. Law of conservation of momentum
*If no net force acts on a system , then the total momentum does not change
*The loss of momentum of one = the gain in momentum of another object-momentum is conserved.

55. Gravity and Mass
Gravitational force of two objects depends on the mass of the objects and the distance between the objects.
Larger the masses exert great gravitational force
Gravitational force decreases as distance increases.

56. Compare the forces of gravity acting between each pair of spheres and tell how you reached your conclusion 1a 1b 2a 2b 3a 3b

57. Reaction # 3
Jane is tired of pushing her VW van to the gas station. She gets an idea, “Hey I can go much faster when I am rollerblading than when I am walking. Why don’t I wear my roller blades?”

58. KEY TERMS
Friction: Resistance to motion that is opposite the direction of travel. A force that opposed the motion of an object.
Air resistance: The force that opposes the movement of an object in air
Terminal velocity: Speed at which air resistance and gravity acting on a falling object are equal
Vacuum: Empty space

59. Falling Objects ~ GRAVITY / AIR RESISTANCE
All falling objects in the Earth’s atmosphere are subject to two forces:
~ GRAVITY / AIR RESISTANCE

60. Falling Objects 2. air resistance
~ the greater the surface area the greater the air resistance
Gravity
Gravity
FORCE
FORCE

61. Terminal Velocity
3. When the air resistance equals the pull of gravity the object stops accelerating and stay at a constant velocity.
Air Resistance
Gravity

62. Vacuum Vacuum: ~ empty space = no atmosphere
~ only subject to one force:
GRAVITY

63. EARTH’S ATMOSPHERE
Gravity
Air Resistance

64. EARTH’S ATMOSPHERE

65. EARTH’S ATMOSPHERE

66. EARTH’S ATMOSPHERE

67. EARTH’S ATMOSPHERE

68. EARTH’S ATMOSPHERE

69. EARTH’S ATMOSPHERE

70. EARTH’S ATMOSPHERE

71. EARTH’S ATMOSPHERE

72. EARTH’S ATMOSPHERE

73. VACUUM
Gravity

74. VACUUM

75. VACUUM

76. VACUUM

77. VACUUM

78. VACUUM

79. VACUUM

80. VACUUM

81. VACUUM

82. VACUUM

83. VACUUM

84. VACUUM

85. VACUUM