Presentation is loading. Please wait.

Presentation is loading. Please wait.

Physics 101 General Physics Who am I? Dr. Bruton I may be teaching the remainder of this course for Mr. Carlton. We have similar teaching styles. There.

Published bySharyl Dennis Modified over 8 years ago

Similar presentations

Presentation on theme: "Physics 101 General Physics Who am I? Dr. Bruton I may be teaching the remainder of this course for Mr. Carlton. We have similar teaching styles. There."— Presentation transcript:

1

2 Physics 101 General Physics

3 Who am I? Dr. Bruton I may be teaching the remainder of this course for Mr. Carlton. We have similar teaching styles. There will be extra credit. I will “teach to” Mr. Carlton’s test. I will hit the highlights of the chapters with PowerPoint presentations.

4 Let’s take notes…

5 Chapter 6 Momentum

6 Momentum and Collisions This chapter is concerned with inertia and motion. Momentum helps us understand collisions.

7 Momentum and Collisions Elastic Collisions –objects rebound –e.g. superball Inelastic Collisions –object stick together an usually become distorted and generate heat –e.g. clay ball

8 Momentum Momentum = mass  velocity p = mv Momentum is a vector quantity.

9 A large truck has more momentum than a car moving at the same speed because it has a greater mass. Which is more difficult to slow down? The car or the large truck?

10 Large Momentum Examples: –Huge ship moving at a small velocity –High velocity bullet P = m v

11 Impulse In order to change the momentum of an object you must apply a force over some time interval. Impulse = Force  time interval = F t

12 Impulse and Momentum Impulse = Change in Momentum = Final (mv) - Initial (mv) F t =  (mv)

13 Case 1: Increasing Momentum –Apply a force for a long time. –Examples: Follow through on a golf swing. Pushing a car. FtFt

14 Case 2: Decreasing Momentum –Apply a force for a long time. –Examples: Air bags in cars. Catching an egg. Boxing, Figure 6.6 Soft collisions, Figure 6.3. FtFt

15 Case 3: Decreasing Momentum –Apply a force for a short time. –Examples: Boxing Karate FtFt

16 Conservation of Momentum This means that the momentum doesn’t change. Recall that F t =  mv) In this equation, F is the "external force". Internal forces cannot cause a change in momentum.

17 Examples Conservation of Momentum: If there are no external forces, the total momentum for a system remains unchanged. Example 1: a person sitting inside a car pushing against the dashboard Example 2: a bullet fired from a rifle Example 3: a rocket is space

18 Example Problems...

Download ppt "Physics 101 General Physics Who am I? Dr. Bruton I may be teaching the remainder of this course for Mr. Carlton. We have similar teaching styles. There."

Similar presentations

MOMENTUM & COLLISIONS.

MOMENTUM & COLLISIONS.
Chapter 6: MOMENTUM.

Chapter 6: MOMENTUM.
Momentum and Impulse.

Momentum and Impulse.
Conceptual Physics 11th Edition

Conceptual Physics 11th Edition
Collisions A B Conservation of Momentum A B During a collision, if the net external force on the system is zero, then the momentum of the system is constant.

Collisions A B Conservation of Momentum A B During a collision, if the net external force on the system is zero, then the momentum of the system is constant.
Momentum Momentum inertia and motion Newton’s “quantity of motion” helps us understand collisions and explosions.

Momentum Momentum inertia and motion Newton’s “quantity of motion” helps us understand collisions and explosions.
Conservation of Momentum

Conservation of Momentum
Momentum and Inertia. Momentum Momentum = mass x velocity MV = P Momentum is inertia in motion. A moving object has more p than an object with less m.

Momentum and Inertia. Momentum Momentum = mass x velocity MV = P Momentum is inertia in motion. A moving object has more p than an object with less m.
Momentum and Energy in Collisions. A 2kg car moving at 10m/s strikes a 2kg car at rest. They stick together and move to the right at ___________m/s.

Momentum and Energy in Collisions. A 2kg car moving at 10m/s strikes a 2kg car at rest. They stick together and move to the right at ___________m/s.
Notes Chapter 8 Momentum Objectives:

Notes Chapter 8 Momentum Objectives:
Conservation of Momentum Momentum before interaction = Momentum after interaction.

Conservation of Momentum Momentum before interaction = Momentum after interaction.
Chapter 6 Momentum 1.MOMENTUM Momentum - inertia in motion Momentum = mass times velocity Units - kg m/s or sl ft/s.

Chapter 6 Momentum 1.MOMENTUM Momentum - inertia in motion Momentum = mass times velocity Units - kg m/s or sl ft/s.
Momentum Impulse, Linear Momentum, Collisions Linear Momentum Product of mass and linear velocity Symbol is p; units are kgm/s p = mv Vector whose direction.

Momentum Impulse, Linear Momentum, Collisions Linear Momentum Product of mass and linear velocity Symbol is p; units are kgm/s p = mv Vector whose direction.
1.MOMENTUM l Momentum = mass times velocity Units - kg m/s.

1.MOMENTUM l Momentum = mass times velocity Units - kg m/s.
Momentum Chapter 7. Momentum Momentum – the product of the mass and the velocity of an object (inertia in motion) momentum = mv Momentum is a vector quantity.

Momentum Chapter 7. Momentum Momentum – the product of the mass and the velocity of an object (inertia in motion) momentum = mv Momentum is a vector quantity.
Dr. Jie ZouPHY 10711 6 Momentum Main topics: Momentum Impulse Impulse changes momentum Conservation of momentum Why are the engines of a supertanker normally.

Dr. Jie ZouPHY Momentum Main topics: Momentum Impulse Impulse changes momentum Conservation of momentum Why are the engines of a supertanker normally.
Chapter 8 Impulse and Momentum.

Chapter 8 Impulse and Momentum.
Momentum – The Basics Momentum is mass in motion (or inertia in motion) Momentum is abbreviated as the letter p! Momentum is mass x velocity (p = mv) Both.

Momentum – The Basics Momentum is mass in motion (or inertia in motion) Momentum is abbreviated as the letter p! Momentum is mass x velocity (p = mv) Both.
Momentum Chapter 8. Momentum Chapter 8 Objectives Define momentum. Define impulse and describe how it affects changes in momentum. Explain why an impulse.

Momentum Chapter 8. Momentum Chapter 8 Objectives Define momentum. Define impulse and describe how it affects changes in momentum. Explain why an impulse.
Physics Chapter 6 Impulse and Momentum.

Physics Chapter 6 Impulse and Momentum.

Similar presentations

Ads by Google