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Section 1: The Nature of Force

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1 Section 1: The Nature of Force
Force – a push or pull on an object; causes an object to accelerate. 3 m/s 0 m/s

2 F = ma Calculating Force Force = (mass)(acceleration)
measured in units of: kilogram-meter/second squared (kgm/s2)

3 kilogram-meter/second squared
a.k.a. Newton (N)

4 Two Types of Forces balanced forces – forces of equal strength & acting in opposite directions; net force always equals zero Newtons. 5 N 5 N Net force = 0 N

5 unbalanced forces – forces of unequal strength &/or act in different directions; causes an object to move. 2 N 5 N Net force = 3 N 3 N

6 Unbalanced Forces 5 N 8 N 3 N ~7 N 5 N 5 N

7 Section 2: Friction & Gravity
friction- the force that two surfaces exert on each other when they rub against each other. 4 Types of Friction: (strongest to weakest) Static Sliding Rolling Fluid - air resistance is the most common form.

8 gravity – a force that pulls objects toward each other.
Gravity causes objects to accelerate toward earth at: 9.8 m/s2.

9 Gravity also causes:

10 Law of Universal Gravitation
states that due to gravity every object in the universe is attracted to every other object in the universe.

11 w = mg Weight weight is the gravitational pull on an object.
weight = (mass)(gravity) w = mg measured in units of: Kgm/s2 a.k.a. Newtons

12 Calculate your REAL weight Step 1) Find your mass:
# of lbs / 2.2 = # of kgs. Step 2) Calculate your weight w = (# of kgs.)(9.8 m/s2)

13 Gravity in the Solar System
Moon 1.2 m/s2 Venus 7.98 m/s2 Jupiter 31,000 m/s2 Sun 3,244,816.1 m/s2

14 Newton’s First Law (Law of Inertia)
An object at rest will remain at rest, and an object in motion will remain in motion at a constant velocity, unless an unbalanced force acts upon it.

15 inertia – the tendency of an object to resist changes in its motion.

16 F = ma Newton’s Second Law
force, mass and acceleration are related with the formula: F = ma

17 50 N 6 m/s2 300 kg

18 12 m/s2 100 N 300 kg

19 6 m/s2 100 N 600 kg

20 Newton’s Third Law if one object exerts a force on another object, then the second object will exert a force of equal strength in the opposite direction back on the first object. Fuel Gas

21

22 momentum – the product of an object’s mass and velocity.
momentum = (mass)(velocity) p = mv measured in units of: kilogram-meter/second

23 Law of Conservation of Momentum
states that: the total momentum of a group of objects remains constant in other words: the total momentum of objects before a collision equals the total momentum after a collision.

24 Before the collision 0.3 kg 0.25 kg C 1.5 m/s 0 m/s p = 0 kgm/s
8 C 1.5 m/s 0 m/s p = (0.25 kg)(1.5 m/s) p = (0.3 kg)(0 m/s) p = 0 kgm/s p = .38 kgm/s pt = .38 kgm/s + 0 kgm/s pt = 0.38 kgm/s

25 After the collision 0.3 kg 0.25 kg C 0.75 m/s 0.63 m/s p = 0.19 kgm/s
8 0.75 m/s 0.63 m/s p = (0.25 kg)(0.75 m/s) p = (0.3 kg)(0.63 m/s) p = 0.19 kgm/s p = 0.19 kgm/s pt = 0.19 kgm/s kgm/s pt = 0.38 kgm/s

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