Goals:
1. Define Energy, Potential Energy, Kinetic Energy and Work.
2. Solve problems using the equations for Energy, Potential Eenrgy, Work and Kinetic Energy.
3. State and apply the concept of conservation of Energy.
Activities:
Mon. Go over test. Start Homework: Work and Energy Reading Guide
Tuesday: Go over homework. Practice with Energy calculations. Introduce conservation of energy.
Thursday: Energy Transformations Lab
Friday: Review, Quiz.
Notebook:
1. Work and Eenrgy Reading Guide.
2. Conservation of Eenrgy Notes.
3. Conservation of Energy Worksheet.
4. Energy Transformation Lab Handout.
Monday, April 13, 2009
Thursday, March 19, 2009
Week 7 March 19-20
Goals:
Calculate Velocity
Make velocity graphs from split time data
Describe how speed changes based on distance graphs.
Match velocity and Distance graphs.
Activities:
Monday: Go over returned quizzes.
Tuesday: Practice MAtching Graphs
Thursday: Run on track and analyze speed data.
Friday: Finish work, review and quiz
Notebook:
1. Returned Quiz
2. Experimental Science Graphs
3. Grant Runners
4 Graphs
Calculate Velocity
Make velocity graphs from split time data
Describe how speed changes based on distance graphs.
Match velocity and Distance graphs.
Activities:
Monday: Go over returned quizzes.
Tuesday: Practice MAtching Graphs
Thursday: Run on track and analyze speed data.
Friday: Finish work, review and quiz
Notebook:
1. Returned Quiz
2. Experimental Science Graphs
3. Grant Runners
4 Graphs
Thursday, March 12, 2009
Goals:
1. Be able to calculate average velocity from its definition, vel = change in distance/change in time.
2. Be able to calculate average velocity from time vs. distance graphs.
3. On a distance vs. time graph, be able to describe how speeds change, based on the slopes of the graph.
Activities:
Monday: Work on gliders
Tuesday: Race Gliders and calculate their average speeds
Block day: Work on making and understanding graphs of motion. Homework: Graph and answer questions about motion data. (Sorry this isn't currently available online.)
Friday:Continue graphing activity. Review and quiz
Notebook:
1. Glicer Results Data Table
3. Flo Jo reading, questions and data table
4. Distance Graph
5. Velocity Graph
1. Be able to calculate average velocity from its definition, vel = change in distance/change in time.
2. Be able to calculate average velocity from time vs. distance graphs.
3. On a distance vs. time graph, be able to describe how speeds change, based on the slopes of the graph.
Activities:
Monday: Work on gliders
Tuesday: Race Gliders and calculate their average speeds
Block day: Work on making and understanding graphs of motion. Homework: Graph and answer questions about motion data. (Sorry this isn't currently available online.)
Friday:Continue graphing activity. Review and quiz
Notebook:
1. Glicer Results Data Table
3. Flo Jo reading, questions and data table
4. Distance Graph
5. Velocity Graph
Tuesday, February 24, 2009
Week 4 Feb. 23-27
Goals:
1. Explain how Newton's 1st and 3rd Laws apply to the flight of a glider.
2. Analyze real world situations in terms of Newton's Third LAw
3. Describe what causes terminal velocity and show how it is related to the mass of the dropped object.
Activities:
Monday: Go over Test. Start Poster Project.
Tuesday: Finish Posters. Present to class.
Thursday: Coffee Filter Lab with Terminal Velocity
Friday: Go over results, review and quiz
Notebook:
1. Warm up 2/24
2. CoffeeFilter Lab.
1. Explain how Newton's 1st and 3rd Laws apply to the flight of a glider.
2. Analyze real world situations in terms of Newton's Third LAw
3. Describe what causes terminal velocity and show how it is related to the mass of the dropped object.
Activities:
Monday: Go over Test. Start Poster Project.
Tuesday: Finish Posters. Present to class.
Thursday: Coffee Filter Lab with Terminal Velocity
Friday: Go over results, review and quiz
Notebook:
1. Warm up 2/24
2. CoffeeFilter Lab.
Wednesday, February 18, 2009
Weeks 2 and 3 Feb 9 - Feb 20
Goals:
1. State Newton's First and Third Laws
2. Define inertia and relate it to mass.
3. Use the first law to explain motion.
4. Apply the third law to everyday situations including how a glider gets lift.
5. Describe the general effects of a net "unbalanced" force.
Activities
Mon9 - Friday 13 I had a sub.
Students watched October Sky and did problems from the textbook
Tues. 17: Lecture and work on practice problems
Blockday: Magnet Lab and Notes
Friday: Poster Project and Quiz. Turn in Notebooks.
Notebook Contents:
1. Questions from Textbook: p 362 1-4, 6; p. 369 1,3,4; p377 1, 5-7; p. 384 11-19, 28
2. October Sky worksheet.
3. Concept development worksheets (2)
4. Notes on First and Third Laws.
1. State Newton's First and Third Laws
2. Define inertia and relate it to mass.
3. Use the first law to explain motion.
4. Apply the third law to everyday situations including how a glider gets lift.
5. Describe the general effects of a net "unbalanced" force.
Activities
Mon9 - Friday 13 I had a sub.
Students watched October Sky and did problems from the textbook
Tues. 17: Lecture and work on practice problems
Blockday: Magnet Lab and Notes
Friday: Poster Project and Quiz. Turn in Notebooks.
Notebook Contents:
1. Questions from Textbook: p 362 1-4, 6; p. 369 1,3,4; p377 1, 5-7; p. 384 11-19, 28
2. October Sky worksheet.
3. Concept development worksheets (2)
4. Notes on First and Third Laws.
Monday, February 2, 2009
Sem 2 week 1 Feb 2 - 6
Goals:
1. Know how a spring's stretch is related to the applied force.
2. Draw Force Diagrams correctly: Vectors(arrows) start on object feeling the force, direction is in the direction of the force, length is proportional to the force.
3. Know that forces are pushes or pulls
4. Know that no movement means the forces are balanced.
5. Know that weight is different than mass - it is the force due to gravity.
6. Know that 1 Newton is the weight of about 100 grams (two hexnuts).
Activities:
Mon: Explore how forces work together to affect the flight of a glider.
Tuesday: Lecture, notes and worksheet on Forces basics.
Thursday: Spring lab Finish graph and questions as homework.
Friday: Finish up lab. Review and Quiz.
Notebook:
1. Forces Exploration
2. Notes-Forces
3. Forces - Practice Worksheet
4. Spring Lab
5 Graph
1. Know how a spring's stretch is related to the applied force.
2. Draw Force Diagrams correctly: Vectors(arrows) start on object feeling the force, direction is in the direction of the force, length is proportional to the force.
3. Know that forces are pushes or pulls
4. Know that no movement means the forces are balanced.
5. Know that weight is different than mass - it is the force due to gravity.
6. Know that 1 Newton is the weight of about 100 grams (two hexnuts).
Activities:
Mon: Explore how forces work together to affect the flight of a glider.
Tuesday: Lecture, notes and worksheet on Forces basics.
Thursday: Spring lab Finish graph and questions as homework.
Friday: Finish up lab. Review and Quiz.
Notebook:
1. Forces Exploration
2. Notes-Forces
3. Forces - Practice Worksheet
4. Spring Lab
5 Graph
Friday, January 23, 2009
Week 16 and 17 Jan 20-29
Goals:
1. Describe trends on the periodic table.
2. Define valence electron and describe how to determine how many an atom has.
3. Explain how atoms form covalent bonds.
4. Explain how atoms for ionic bonds.
Activities:
Tues: Lecture and practie about valence electrons.
Thursday: Video: The periodic Table and lecture and practice with covalent bonds.
Friday: Lecture and practice with ionic bonds.
Monday: Review for Final
Thursday: Semester Final
Notebook:
1. Notes on Valence Electrons.
2. Valence Electron Practice
3. Structured notes on bonding
4. Practice with valence electrons and bonding.
5 Video notes.
6 Final Review.
1. Describe trends on the periodic table.
2. Define valence electron and describe how to determine how many an atom has.
3. Explain how atoms form covalent bonds.
4. Explain how atoms for ionic bonds.
Activities:
Tues: Lecture and practie about valence electrons.
Thursday: Video: The periodic Table and lecture and practice with covalent bonds.
Friday: Lecture and practice with ionic bonds.
Monday: Review for Final
Thursday: Semester Final
Notebook:
1. Notes on Valence Electrons.
2. Valence Electron Practice
3. Structured notes on bonding
4. Practice with valence electrons and bonding.
5 Video notes.
6 Final Review.
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