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Chapter 2, Section 1. Newton’s 1 st Law: A Running Start. Date: September 24, 2013 HW: 2.1 PTG #1-6, Due Thursday. Do Now: Copy LO and SC Agenda: Do Now Learning Objectives Success Criteria Investigate Active Physics Plus Physics Talk PTG #1-6, pg. 143. Learning Objective:
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Chapter 2, Section 1 Newton’s 1st Law: A Running Start
Date: September 24, 2013HW: 2.1 PTG #1-6, Due Thursday • Do Now: • Copy LO and SC • Agenda: • Do Now • Learning Objectives • Success Criteria • Investigate • Active Physics Plus • Physics Talk • PTG #1-6, pg. 143 • Learning Objective: • Explain why objects keep moving after the force on them ceases to act • Success Criteria: • Describe Galileo’s law of inertia • Apply Newton’s 1st law of motion • Recognize inertial mass as a physical property of matter
Do Now: • Read Investigate #1-5 pg. 133 • Agenda: • Do Now • Learning Objectives • Success Criteria • Investigate • Active Physics Plus • Physics Talk • PTG #1-6, pg. 143 • Learning Objective: • Describe how an object’s velocity depends on the frame of reference • Success Criteria: • Use examples to demonstrate that speed is always relative to some other object • Explain that the speed of an object depends on the reference frame from which it is being observed
Investigate • #1-Demo • #2-3: 10 Minutes in Groups • #4: 10 Minutes • #5: 10 Minutes
Finish Investigate #5 • Discuss Results • Energy Skate Park • Active Physics Plus, Part A
! • Do Now: • Cornell Notes on Physics Talk (finish) • Agenda: • Do Now • Learning Objectives • Success Criteria • Physics Talk • 2.1 Quiz • PTG #1-6, pg. 143 • Learning Objective: • Explain why objects keep moving after the force on them ceases to act • Describe how an object’s velocity depends on the frame of reference • Success Criteria: • Describe Galileo’s law of inertia • Apply Newton’s 1st law of motion • Recognize inertial mass as a physical property of matter • Use examples to demonstrate that speed is always relative to some other object • Explain that the speed of an object depends on the reference frame from which it is being observed
Do Now • A train is traveling at 30 m/s. A passenger on the train tosses a ball up in the air and it comes right back to him. A bystander sees the passenger from road next to the tracks the toss the ball through the window of the train. How fast is the ball moving to the bystander?
Physics Talk • Cornell Notes on Physics Talk • Checking Up Q 1-6, pg. 138 • PTG #1-6, 10 Due Friday