QUIZ ON MOMENTUM AND IMPULSE TUESDAY
MOMENTUM AS A 2 D VECTOR
KPSS: X and Y CHART
FBD similarity to a momentum vector DIAGRAM
https://www.wiley.com/college/cutnell/0471663158/ilw
Friday, January 19, 2018
Thursday, January 18, 2018
UNIT:
MOMENTUM
DAY:49
ACTIVITY: (ILW)
COMPLETE : NOTE: QUESTIONS:
ILW #1 REVIEW
ILW #2 INTRODUCTION
ILW #3 APPLICATION
DAY:49
ACTIVITY: (ILW)
COMPLETE : NOTE: QUESTIONS:
ILW #1 REVIEW
ILW #2 INTRODUCTION
ILW #3 APPLICATION
The Physics of the 69-Degree Intersection
This is Python- it is base off of the computer language C+
This is Python- it is base off of the computer language C+
- Identify the key variables
- Edit the variables / code (this is called " " where you don't code from scratch but just change some of the variables to produce a result, with out any real knowledge of the code itself.)
- What did you learn?
Friday, January 12, 2018
MOMENTUM
Watch The Video
The Mechanical Universe: 15. Conservation of... by physics-lnr After studying the material of this chapter, you should be able to:
1. Define linear momentum and write the mathematical formula for linear momentum from memory.
2. Distinguish between the unit of force and momentum.
3. Write Newton's Second Law of Motion in terms of momentum.
4. Define impulse and write the equation that connects impulse and momentum.
5. State the Law of Conservation of Momentum and write, in vector form, the law for a system involving two or more point masses.
6. Distinguish between a perfectly elastic collision and a completely inelastic collision.
7. Apply the laws of conservation of momentum and energy to problems involving collisions between two point masses.
8. Define center of mass and center of gravity and distinguish between the two concepts.
The Mechanical Universe: 15. Conservation of... by physics-lnr After studying the material of this chapter, you should be able to:
1. Define linear momentum and write the mathematical formula for linear momentum from memory.
2. Distinguish between the unit of force and momentum.
3. Write Newton's Second Law of Motion in terms of momentum.
4. Define impulse and write the equation that connects impulse and momentum.
5. State the Law of Conservation of Momentum and write, in vector form, the law for a system involving two or more point masses.
6. Distinguish between a perfectly elastic collision and a completely inelastic collision.
7. Apply the laws of conservation of momentum and energy to problems involving collisions between two point masses.
8. Define center of mass and center of gravity and distinguish between the two concepts.
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