Semester 1
Assignment Plan
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Date |
Topic |
Book Chap:
Read/Notes Click for
more info |
Practice Probs. |
Section Review Questions |
End of Chapter Questions and Problems |
Problem Sets |
Labs/Sims |
Test |
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Getting to know us and Physics |
C |
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Safety Sheet signed |
Graphing Motion |
Mechanics Baseline Test |
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Aug 26-30 |
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Sep 2-6 |
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Sep 9-13 |
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Sep
16-20 Mid Q1 |
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Oct 7-11 |
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Oct
14-18 End 1st Q |
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Oct 21-25 |
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Oct 28- Nov 1 |
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Nov 4--8 PTC |
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Nov 11-15 |
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Nov 18-22 Mid Q2 |
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Nov 25-29 TGBreak |
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Dec 2-6 |
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Dec 9-13 |
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Dec 16-20 Sem Finals |
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Xmas |
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Xmas |
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Jan 6-10 End of Sem |
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� |
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Regular
Physics Weekly Lesson Plan
Week 1: Aug 19-23
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Day |
Section |
Concepts |
Lecture
Topic |
Demos |
Labs |
Videos |
Homework |
Test/
Quiz |
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Monday |
No school |
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Tuesday |
� day |
This is me |
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Sound; waves; duck |
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Wednesday |
starting |
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Go over lab safety in physics |
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Lab 1 Walking with graphs |
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Thursday |
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Safety sheet |
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Sign safety sheet |
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Friday |
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Mechanics Test |
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�Next Week |
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Saftey test Mon |
Regular Physics Weekly Lesson Plan
Week 2: Aug 26-30
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Day |
Section |
Concepts |
Lecture
Topic |
Demos |
Labs |
Videos |
Homework |
Test/
Quiz |
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Monday |
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Tuesday |
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Wednesday |
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Thursday |
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Friday |
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�Next Week |
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Regular
Physics Weekly Lesson Plan
Week 3: Sep 2-6
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Day |
Section |
Concepts |
Lecture
Topic |
Demos |
Labs |
Videos |
Homework |
Test/
Quiz |
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Monday |
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Tuesday |
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Wednesday |
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Thursday |
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Friday |
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Next
Week |
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Regular
Physics Weekly Lesson Plan
Week 4: Sep 9-13
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Day |
Section |
Concepts |
Lecture
Topic |
Demos |
Labs |
Videos |
Homework |
Test/
Quiz |
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Monday |
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Tuesday |
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Wednesday |
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Thursday |
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Friday |
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�Next Week |
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Regular
Physics Weekly Lesson Plan
Week 5: Sep 16-20
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Day |
Section |
Concepts |
Lecture
Topic |
Demos |
Labs |
Videos |
Homework |
Test/
Quiz |
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Monday |
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Tuesday |
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Wednesday |
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Thursday |
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Friday |
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�Next Week |
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Regular
Physics Weekly Lesson Plan
Week 6: Sep 23-27
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Day |
Section |
Concepts |
Lecture
Topic |
Demos |
Labs |
Videos |
Homework |
Test/
Quiz |
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Monday |
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Tuesday |
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Wednesday |
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Thursday |
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Friday |
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�Next Week |
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Regular
Physics Weekly Lesson Plan
Week 7: Sep 30-Oct 4
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Day |
Section |
Concepts |
Lecture
Topic |
Demos |
Labs |
Videos |
Homework |
Test/
Quiz |
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Monday |
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Tuesday |
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Wednesday |
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Thursday |
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Friday |
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�Next Week |
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Regular
Physics Weekly Lesson Plan
Week 8: Oct 7-11
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Day |
Section |
Concepts |
Lecture
Topic |
Demos |
Labs |
Videos |
Homework |
Test/
Quiz |
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Monday |
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Tuesday |
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Wednesday |
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Thursday |
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Friday |
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�Next Week |
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Chapter
Section |
Pages |
Objectives |
Vocab |
Concepts |
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Ch 22.1 |
590-600 |
Describe conditions that create current in an electric circuit. Explain Ohm�s Law Design closed circuits. Differentiate between power and energy in an electric circuit |
Electric current, conventional current, battery, electric circuit, ampere resistance, resistor, parallel connection, series connection |
Electric current, Electrical kinetic energy, conservation of charge, conservation of energy, Rate of charge flow, rate of energy transfer, power, Ohm�s Law, changing resistance, circuit diagram, drawing schematic diagram |
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Ch 22.2 |
591-605 |
Explain how electric energy is converted into thermal energy Explore ways to deliver energy to consumers Define the kilowatt-hour |
Kilowatt-hour, superconductor |
Energy transfer in circuits, thermal energy, superconductors, electric transmission, kilowatt-hour |
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Chapter
Section |
Pages |
Objectives |
Vocab |
Concepts |
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Ch 22.1 |
590-600 |
Describe conditions that create current in an electric circuit. Explain Ohm�s Law Design closed circuits. Differentiate between power and energy in an electric circuit |
Electric current, conventional current, battery, electric circuit, ampere resistance, resistor, parallel connection, series connection |
Electric current, Electrical kinetic energy, conservation of charge, conservation of energy, Rate of charge flow, rate of energy transfer, power, Ohm�s Law, changing resistance, circuit diagram, drawing schematic diagram |
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Ch 22.2 |
591-605 |
Explain how electric energy is converted into thermal energy Explore ways to deliver energy to consumers Define the kilowatt-hour |
Kilowatt-hour, superconductor |
Energy transfer in circuits, thermal energy, superconductors, electric transmission, kilowatt-hour |
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Chapter
Section |
Pages |
Objectives |
Vocab |
Concepts |
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Ch 22.1 |
590-600 |
Describe conditions that create current in an electric circuit. Explain Ohm�s Law Design closed circuits. Differentiate between power and energy in an electric circuit |
Electric current, conventional current, battery, electric circuit, ampere resistance, resistor, parallel connection, series connection |
Electric current, Electrical kinetic energy, conservation of charge, conservation of energy, Rate of charge flow, rate of energy transfer, power, Ohm�s Law, changing resistance, circuit diagram, drawing schematic diagram |
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Ch 22.2 |
591-605 |
Explain how electric energy is converted into thermal energy Explore ways to deliver energy to consumers Define the kilowatt-hour |
Kilowatt-hour, superconductor |
Energy transfer in circuits, thermal energy, superconductors, electric transmission, kilowatt-hour |
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Chapter
Section |
Pages |
Objectives |
Vocab |
Concepts |
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Ch 22.1 |
590-600 |
Describe conditions that create current in an electric circuit. Explain Ohm�s Law Design closed circuits. Differentiate between power and energy in an electric circuit |
Electric current, conventional current, battery, electric circuit, ampere resistance, resistor, parallel connection, series connection |
Electric current, Electrical kinetic energy, conservation of charge, conservation of energy, Rate of charge flow, rate of energy transfer, power, Ohm�s Law, changing resistance, circuit diagram, drawing schematic diagram |
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Ch 22.2 |
591-605 |
Explain how electric energy is converted into thermal energy Explore ways to deliver energy to consumers Define the kilowatt-hour |
Kilowatt-hour, superconductor |
Energy transfer in circuits, thermal energy, superconductors, electric transmission, kilowatt-hour |
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Chapter
Section |
Pages |
Objectives |
Vocab |
Concepts |
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Ch 22.1 |
590-600 |
Describe conditions that create current in an electric circuit. Explain Ohm�s Law Design closed circuits. Differentiate between power and energy in an electric circuit |
Electric current, conventional current, battery, electric circuit, ampere resistance, resistor, parallel connection, series connection |
Electric current, Electrical kinetic energy, conservation of charge, conservation of energy, Rate of charge flow, rate of energy transfer, power, Ohm�s Law, changing resistance, circuit diagram, drawing schematic diagram |
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Ch 22.2 |
591-605 |
Explain how electric energy is converted into thermal energy Explore ways to deliver energy to consumers Define the kilowatt-hour |
Kilowatt-hour, superconductor |
Energy transfer in circuits, thermal energy, superconductors, electric transmission, kilowatt-hour |
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Chapter
Section |
Pages |
Objectives |
Vocab |
Concepts |
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Ch 22.1 |
590-600 |
Describe conditions that create current in an electric circuit. Explain Ohm�s Law Design closed circuits. Differentiate between power and energy in an electric circuit |
Electric current, conventional current, battery, electric circuit, ampere resistance, resistor, parallel connection, series connection |
Electric current, Electrical kinetic energy, conservation of charge, conservation of energy, Rate of charge flow, rate of energy transfer, power, Ohm�s Law, changing resistance, circuit diagram, drawing schematic diagram |
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Ch 22.2 |
591-605 |
Explain how electric energy is converted into thermal energy Explore ways to deliver energy to consumers Define the kilowatt-hour |
Kilowatt-hour, superconductor |
Energy transfer in circuits, thermal energy, superconductors, electric transmission, kilowatt-hour |
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Chapter
Section |
Pages |
Objectives |
Vocab |
Concepts |
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Ch 22.1 |
590-600 |
Describe conditions that create current in an electric circuit. Explain Ohm�s Law Design closed circuits. Differentiate between power and energy in an electric circuit |
Electric current, conventional current, battery, electric circuit, ampere resistance, resistor, parallel connection, series connection |
Electric current, Electrical kinetic energy, conservation of charge, conservation of energy, Rate of charge flow, rate of energy transfer, power, Ohm�s Law, changing resistance, circuit diagram, drawing schematic diagram |
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Ch 22.2 |
591-605 |
Explain how electric energy is converted into thermal energy Explore ways to deliver energy to consumers Define the kilowatt-hour |
Kilowatt-hour, superconductor |
Energy transfer in circuits, thermal energy, superconductors, electric transmission, kilowatt-hour |
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