12.3: Newton’s Third Law of Motion and Momentum

Slides:



Advertisements
Similar presentations
Newton’s 3 rd Law and Momentum. Newton’s 3 rd Law When one object exerts a force on a second object, the second object exerts a force on the first that.
Advertisements

When this bumper car collides with another car, two forces are exerted
12.3 Newton’s Third Law of Motion and Momentum What is Newton’s third law of motion? Newton’s Third Law According to Newton’s third law of motion, whenever.
Physics Notes Newton’s Laws of Motion
Chapter Six: Laws of Motion
12-3 Cornell Newton’s 3rd Law of Motion Momentum
5.3 - Forces and Equilibrium ~Background info~
Pearson Prentice Hall Physical Science: Concepts in Action
Newton’s Laws White Board Review Pick up a board, a marker, a paper towel & a calculator!
Review F N = 20 N F G = 20 N 1.) What is the net force on the object? 2.) Are the forces balanced or unbalanced? 3.) Will the object move?
Momentum and Newton’s 2 nd Law of Motion. Momentum Momentum - an object’s tendency to keep moving  Determines how difficult it is to stop the object’s.
10-3/10-4 Notes: Newton’s First and Second Laws 12/searchhttp://archives.nbclearn.com/portal/site/k- 12/search.
Newton’s Third Law of Motion
Physical Science Newtons Third Law. Objectives Explain that when one object exerts a force on a second object, the second object exerts a force equal.
12.3 Newton’s Third Law of Motion and Momentum Newton’s Third Law Whenever one object exerts a force on a second object, the second object exerts an equal.
Newton’s Third Law of Motion Chapter 3 Section 3.
Section 4: Action and Reaction Objectives: state Newton’s third law of motion define and calculate momentum and state the law of conservation of momentum.
Chapter 2, Section 3 Momentum Notes. Momentum, Mass and Velocity.
1 200 pt 300 pt 400 pt 500 pt 100 pt 200 pt 300 pt 400 pt 500 pt 100 pt 200 pt 300 pt 400 pt 500 pt 100 pt 200 pt 300 pt 400 pt 500 pt 100 pt 200 pt 300.
Newton’s Laws of Motion. Newton’s First Law  The Law of Inertia  Inertia- the tendency of an object to resist a change in motion.  An object at rest.
SECTION 3: Newton’s 3 rd Law and Momentum. LEARNING GOALS  State Newton’s 3 rd Law of Motion.  Identify action and reaction forces.  Calculate momentum.
Newton’s Third Law of Motion and Momentum
6.3 Newton's Third Law pp
Chapter 12: Forces and Motion
Newton’s Laws of Motion
Forces and Motion Chapter 12.
Chapter 2 - Sections 3 & 4 Newton’s Laws of Motion and Momentum.
Newton’s Second Law of Motion. 2 nd Law of Motion  The net (total) force of an object is equal to the product of its acceleration and its mass.  Force.
Action and Reaction Newton’s 3 rd Law of Motion. Newton’s Third Law of Motion Newton’s third law of motion states that if one object exerts a force on.
Newton’s 3rd Law of Motion & Momentum
LAWS OF MOTION. Chapter Six: Laws of Motion  6.1 Newton’s First Law  6.2 Newton’s Second Law  6.3 Newton’s Third Law and Momentum.
Newton’s Third Law of Motion and Momentum Chapter 12 Section 3.
Ch. 12 Sec. 3 Newton’s 3 rd Law. Newton’s 3 rd Law of Motion All forces act in pairs Whenever one object exerts a force on a second object, the second.
Chapter th Grade. Galileo Galilei –Italian Astronomer –Suggested that once an object is in motion, no force is needed to keep it moving. Force.
Forces * Newton’s Laws And Speed. Newton’s Laws First Law - An object at rest tends to stay at rest AND an object in motion tends to stay in motion.
{ Physical Science Chapter 12.3 Notes Newton’s Third Law of Motion and Momentum Pg
Force Unit Part 3: Newton’s Third Law. Objectives  Be able to explain Newton’s third law in your own words and give examples  Be able to show that all.
Newton’s 3 rd Law of Motion: Momentum. Section 3: The Third Law of Motion Objectives: State Newton’s third law of motion. Identify action and reaction.
12.2 Newton’s First and Second Laws of Motion Inertia is the tendency of an object to resist a change in its motion. Objects in motion tend to stay in.
12.3 Newton’s Third Law of Motion and Momentum 4. 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?
When this bumper car collides with another car, two forces are exerted
Newton’s Third Law of Motion and Momentum
12.3 Newton’s Third Law of Motion and Momentum
Newton’s Third Law and Momentum
Newton’s Laws of Motion
CHAPTER 3: FORCES 3.3 THE THIRD LAW OF MOTION.
newton’s laws of motion
Newton's Third Law of Motion and Momentum
When this bumper car collides with another car, two forces are exerted
Momentum & Newton’s Laws
Newton’s Laws Of Motion
Newton’s Third Law Chapter 10 Section 4.
Object at rest stays at rest,
Newton’s Second Law of Motion
Newton’s 3 laws of motion
6.3 Newton's Third Law pp
Physical Science: Chapter 12, Section 3 Newton’s Third Law of Motion
Newton's Third Law of motion and momentum
Chapter Six: Laws of Motion
Chapter Six: Laws of Motion
When this bumper car collides with another car, two forces are exerted
Physical Science Chapter 12 Section 3
When this bumper car collides with another car, two forces are exerted
Newton’s Third Law of Motion and Momentum
Newton’s Third Law When one object exerts a force on a 2nd object, the 2nd object exerts an equal and opposite force on the 1st object. For every action,
Newton’s 1st and 2nd Laws.
Chapter Six: Laws of Motion
Newton’s Laws of Motion
Newton’s Third Law of Motion
Presentation transcript:

12.3: Newton’s Third Law of Motion and Momentum

According to Newton’s third law of motion, whenever one object exerts a force on a second object, the second object exerts an equal and opposite force on the first object.

Examples of Action Reaction Forces Colliding bumper cars Pressing your hand up against a wall Swimmer swimming

Momentum Momentum is the product of an object’s mass and its velocity. An object has a large momentum if the product of its mass and velocity is large. An object with large momentum is harder to stop than an object with small momentum. The momentum for any object at rest is zero.

Calculating Momentum Mass is measured in kilograms. Velocity is measured in meters per second. Momentum (P) is measured kilogram-meters per second (kgXm/s).

Calculating Momentum Example Which has more momentum, a 0.046-kilogram golf ball with a speed of 60.0 meters per second, or a 7.0-kilogram bowling ball with a speed of 6.0 meters per second?

Calculating Momentum Example Which has more momentum, a 0.046-kilogram golf ball with a speed of 60.0 meters per second, or a 7.0-kilogram bowling ball with a speed of 6.0 meters per second? Momentumgolf ball = 0.046 kg × 60.0 m/s = 2.8 kg•m/s

Calculating Momentum Example Which has more momentum, a 0.046-kilogram golf ball with a speed of 60.0 meters per second, or a 7.0-kilogram bowling ball with a speed of 6.0 meters per second? Momentumgolf ball = 0.046 kg × 60.0 m/s = 2.8 kg•m/s Momentumbowling ball = 7.0 kg × 6.0 m/s = 42 kg•m/s

Calculating Momentum Example Which has more momentum, a 0.046-kilogram golf ball with a speed of 60.0 meters per second, or a 7.0-kilogram bowling ball with a speed of 6.0 meters per second? Momentumgolf ball = 0.046 kg × 60.0 m/s = 2.8 kg•m/s Momentumbowling ball = 7.0 kg × 6.0 m/s = 42 kg•m/s The bowling ball has considerably more momentum than the golfball.

Law of Conservation of Momentum According to the law of conservation of momentum, if no net force acts on a system, then the total momentum of the system does not change. In a closed system, the loss of momentum of one object equals the gain in momentum of another object— momentum is conserved. A closed system means other objects and forces cannot enter or leave a system. Objects within a closed system can exert forces on one another.

Feedback: Privacy Policy Feedback
Do Not Sell My Personal Information
About project: SlidePlayer Terms of Service

© 2024 SlidePlayer.com Inc. All rights reserved.