Course Outline

Learning Outcomes

Daily Schedule

Introduction

Kinematics

Nuclear

Dynamics

Energy

Waves

Relativity

Science Fair

Physics 11 Links

Ms. B's Main Site

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This Unit is Under Construction!!

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• Physics 11 Daily Schedule

• Assignments

• Web Links for Dynamics

• Learning Outcomes for this Unit

• Physics 11 Home

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Assignments

Reminders

• Make sure all questions are answered in full, complete sentences.

• Do your work to the best of your ability.

Mark	Tasks
notebook	5.    "Branches of Science" notes.
notebook	6.    "Scientific Method" notes.
notebook	9. "WHMIS" notes
/11	10.  Complete the WHMIS Labels worksheet.
/15	15. Quiz on Safety.

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Dynamics Web Links

• Vector Addition Applet
• Parallelogram Method Applet
• Vector Fundamentals
• Animated GIF of Head to Tail Method
• Multimedia Physics Studio- Many Animated GIFs
• Monkey and Zoo Keeper Anmimated GIF
• Physlets
• Friction and Inclined Plane Applets
• Football and Newton 2 (a Quicktime Movie of Practice)
• Physics of Racing
• Forces and Newton's Laws
   

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Learning Outcomes for Dynamics in one Dimension Unit.

 

Dynamics in One Dimension (Force of Gravity)

It is expected that students will demonstrate an ability to apply in a variety of situations concepts related to the force of gravity.

4.1. define gravitational field strength

4.2. use the gravitational field strength to relate the mass of objects to the force of gravity (weight) acting on them

4.3. demonstrate that the force of gravity between two objects is an inverse square law with respect to distance

4.4. solve problems involving Newton's law of universal gravitation for: force, mass, distance of separation, universal gravitational constant

Dynamics in One Dimension (Force of Friction)

It is expected that students will demonstrate an ability to describe and apply the concept of friction to everyday situations and determine the factors that affect it.

4.5. distinguish between static and kinetic friction

4.6. compare the effects of the normal force, materials involved, surface area, and speed on the force of friction

4.7. define coefficient of friction

4.8. solve problems involving objects sliding on horizontal surfaces for: force of friction, coefficient of friction, normal force

Dynamics in One Dimension (Elastic Forces)

It is expected that students will demonstrate an ability to describe and apply Hooke's law to everyday situations.

4.9. use appropriate materials to verify Hookes law

4.10. solve problems using Hooke's law that involve: force, spring constant, distortion

4.11. relate Hooke's law to situations in their homes and community

Dynamics in One Dimension (Newton's Laws)

It is expected that students will demonstrate knowledge of Newton's laws and apply them to common situations.

4.12. state Newton's laws of motion and illustrate each with practical examples

4.13. solve problems using Newton's second law that involve: net force, mass, acceleration

4.14. apply Newton's laws and the concepts of kinematics to solve problems

Dynamics in One Dimension (Momentum in One Dimension)

It is expected that students will demonstrate an ability to describe and apply the concept of momentum to everyday situations.

4.15. use the definition of momentum to calculate the unknown variable, given any two of the following: momentum, mass, velocity

4.16. state the law of conservation of momentum for isolated, one-dimensional systems

4.17. use the law of conservation of momentum to calculate any of the following from appropriate data: momentum, mass, velocity

4.18. identify workplace applications where momentum is measured or controlled

©2001 Charla Beaulieu
This document was last modified on Friday, September 15, 2006
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