Presentation is loading. Please wait.

Presentation is loading. Please wait.

Oct. 18, 2012 AGENDA: 1 – Bell Ringer 2 – Acceleration Lab 3 – Acceleration Lab Analysis Today’s Goal: Students will be able to understand calculate acceleration.

Published byLucy Ford Modified over 8 years ago

Similar presentations

Presentation on theme: "Oct. 18, 2012 AGENDA: 1 – Bell Ringer 2 – Acceleration Lab 3 – Acceleration Lab Analysis Today’s Goal: Students will be able to understand calculate acceleration."— Presentation transcript:

1 Oct. 18, 2012 AGENDA: 1 – Bell Ringer 2 – Acceleration Lab 3 – Acceleration Lab Analysis Today’s Goal: Students will be able to understand calculate acceleration from position and time data Homework 1. Acceleration Lab Analysis (p. 18-20) 1. Quiz Tomorrow

2 CHAMPS for Bell Ringer C – Conversation – No Talking H – Help – RAISE HAND for questions A – Activity – Solve Bell Ringer on binder paper. Homework out on desk M – Materials and Movement – Pen/Pencil, Notebook or Paper P – Participation – Be in assigned seats, work silently S – Success – Get a stamp! I will collect!

3 Thursday, Oct. 18 th (p. 22) Objective: Students will be able to understand calculate acceleration from position and time data Bell Ringer: 1. How do you calculate velocity from position time data? 2. How do you calculate acceleration from knowing an initial and final velocity and a time

4 4 MINUTES REMAINING…

5 Thursday, Oct. 18 th (p. 22) Objective: Students will be able to understand calculate acceleration from position and time data Bell Ringer: 1. How do you calculate velocity from position time data? 2. How do you calculate acceleration from knowing an initial and final velocity and a time

6 3 MINUTES REMAINING…

7 Thursday, Oct. 18 th (p. 22) Objective: Students will be able to understand calculate acceleration from position and time data Bell Ringer: 1. How do you calculate velocity from position time data? 2. How do you calculate acceleration from knowing an initial and final velocity and a time

8 2 MINUTES REMAINING…

9 Thursday, Oct. 18 th (p. 22) Objective: Students will be able to understand calculate acceleration from position and time data Bell Ringer: 1. How do you calculate velocity from position time data? 2. How do you calculate acceleration from knowing an initial and final velocity and a time

10 1minute Remaining…

11 Thursday, Oct. 18 th (p. 22) Objective: Students will be able to understand calculate acceleration from position and time data Bell Ringer: 1. How do you calculate velocity from position time data? 2. How do you calculate acceleration from knowing an initial and final velocity and a time

12 30 Seconds Remaining…

13 Thursday, Oct. 18 th (p. 22) Objective: Students will be able to understand calculate acceleration from position and time data Bell Ringer: 1. How do you calculate velocity from position time data? 2. How do you calculate acceleration from knowing an initial and final velocity and a time

14 BELL- RINGER TIME IS UP!

15 Thursday, Oct. 18 th (p. 22) Objective: Students will be able to understand calculate acceleration from position and time data Bell Ringer: 1. How do you calculate velocity from position time data? 2. How do you calculate acceleration from knowing an initial and final velocity and a time

16 Shout Outs Period 5 – Nana Jenkins Period 7 – Jasmine Thomas, Montanez Arnold

17 Oct. 18, 2012 AGENDA: 1 – Bell Ringer 2 – Acceleration Lab 3 – Acceleration Lab Analysis Today’s Goal: Students will be able to understand calculate acceleration from position and time data Homework 1. Acceleration Lab Analysis 2. (p. 18-20) 3. Quiz Tomorrow

18 Week 6 Weekly Agenda Monday – Acceleration Tuesday – Acceleration Wednesday – Acceleration & Results Section of Labs Thursday – Acceleration Lab Friday – Quiz # 3

19 CHAMPS for Labs C – Conversation – Talk to your group no louder than a whisper H – Help – RAISE HAND for questions A – Activity – Take Position Time Data M – Materials and Movement – Pen/Pencil, Packet Pages 18-21 P – Participation – Complete Page 18-21 S – Success – Understand how to calculate acceleration

20 Lab Analysis (p. 18)

21

22 Record your time data below a. 0m to 1m ____________ b. 0m to 2m ____________ c. 0m to 3m ____________ d. 0m to 4m ____________ e. 0m to 5m ____________

23 Lab Analysis (p. 18) 4. Record your time data below a. 0m to 1m 1s b. 0m to 2m 1.25 s c. 0m to 3m 2.03 s d. 0m to 4m 2.28 s e. 0m to 5m 2.35 s

24 Lab Analysis (p. 18-19) Analysis: 5. Calculate the instantaneous speed at the following distances f. 1m ____________ (1/a) g. 2m ____________ (2/b) h. 3m ____________ (3/c) i. 4m ____________ (4/d) j. 5m ____________ (5/e)

25 Lab Analysis (p. 18-19) Analysis: 5. Calculate the instantaneous speed at the following distances f. 1m 1 m / 1 s = 1m/s (1/a) g. 2m 2 m / 1.25 s = 1.6 m/s (2/b) h. 3m 3 m / 2.03 s = 1.48 m/s (3/c) i. 4m 4 m / 2.28 s = 1.75 m/s (4/d) j. 5m 5 m / 2.35 s = 2.13 m/s (5/e) Now you do it!

26 Lab Analysis (p.19) Analysis: 6. Calculate the time between each of the following distances k. 1m to 2m ________________ (b – a) l. 2m to 3m ________________ (c- b) m. 3m to 4m _________________ (d – c) n. 4m to 5m __________________ (e – d)

27 Lab Analysis (p.19) Analysis: 6. Calculate the time between each of the following distances k. 1m to 2m 1.25 – 1.00 = 0.25s (b – a) l. 2m to 3m 2.03 – 1.25 =.78s (c- b) m. 3m to 4m 2.28 – 2.03 =.25 s (d – c) n. 4m to 5m 2.35 – 2.28 s =.07 s (e – d) Now you do it!

28 Lab Analysis (p.19) Analysis: Calculate the acceleration for the following distances 1m to 3m ____________ (h – f/k + l) 2m to 4m ____________ (i – g/l + m) 3m to 5m ____________ (j - h/m + n)

29 Lab Analysis (p.19) Calculate the acceleration for the following distances 1m to 3m (1.48 – 1 m/s) / (0.25 +.78 s) =.47 m/s 2 (h – f/k + l) 2m to 4m ____________ (i – g/l + m) 3m to 5m ____________ (j - h/m + n) Now you do it!

30 Solving Kinematics Problems Step 1: Read the Problem, underline key quantities Step 2: Assign key quantities a variable Step 3: Identify the missing variable Step 4: Choose the pertinent equation: Step 5: Solve for the missing variable. Step 6: Substitute and solve.

31 Solving Kinematics Problems 9. While drag racing out of our school parking lot, I time myself at a speed of 40 meters per second seven seconds after starting. What was my acceleration during this time?

32 Solving Kinematics Problems 9. While drag racing out of our school parking lot, I time myself at a speed of 40 meters per second seven seconds after starting. What was my acceleration during this time? Step 1: Read the Problem, underline key quantities

33 Solving Kinematics Problems 9. While drag racing out of our school parking lot, I time myself at a speed of 40 meters per second seven seconds after starting. What was my acceleration during this time? Step 1: Read the Problem, underline key quantities

34 Solving Kinematics Problems 9. While drag racing out of our school parking lot, I time myself at a speed of 40 meters per second seven seconds after starting. What was my acceleration during this time? Step 2: Assign key quantities a variable

35 Solving Kinematics Problems 9. While drag racing out of our school parking lot, I time myself at a speed of 40 meters per second seven seconds after starting. What was my acceleration during this time? Step 2: Assign key quantities a variable Vf = 40 m/s Vi = 0 m/s Δt = 7s

36 Solving Kinematics Problems 9. While drag racing out of our school parking lot, I time myself at a speed of 40 meters per second seven seconds after starting. What was my acceleration during this time? Step 3: Identify the missing variable Vf = 40 m/s Vi = 0 m/s Δt = 7s a = ?

37 Solving Kinematics Problems 9. While drag racing out of our school parking lot, I time myself at a speed of 40 meters per second seven seconds after starting. What was my acceleration during this time? Step 4: Choose the pertinent equation: Vf = 40 m/s Vi = 0 m/s Δt = 7s a = ? Δx = xf – xiV = Δx/Δt a = (vf – vi)/Δt

38 Solving Kinematics Problems 9. While drag racing out of our school parking lot, I time myself at a speed of 40 meters per second seven seconds after starting. What was my acceleration during this time? Step 4: Choose the pertinent equation: Vf = 40 m/s Vi = 0 m/s Δt = 7s a = ? Δx = xf – xiV = Δx/Δt a = (vf – vi)/Δt

39 Solving Kinematics Problems 9. While drag racing out of our school parking lot, I time myself at a speed of 40 meters per second seven seconds after starting. What was my acceleration during this time? Step 4: Choose the pertinent equation: Vf = 40 m/s Vi = 0 m/s Δt = 7s a = ? Δx = xf – xiV = Δx/Δt a = (vf – vi)/Δt

40 Solving Kinematics Problems 9. While drag racing out of our school parking lot, I time myself at a speed of 40 meters per second seven seconds after starting. What was my acceleration during this time? Step 5: Solve for the missing variable. Vf = 40 m/s Vi = 0 m/s Δt = 7s a = ? a = (vf – vi)/Δt

41 Solving Kinematics Problems 9. While drag racing out of our school parking lot, I time myself at a speed of 40 meters per second seven seconds after starting. What was my acceleration during this time? Step 6: Substitute and solve. Vf = 40 m/s Vi = 0 m/s Δt = 7s a = ? a = (vf – vi)/Δt

42 Solving Kinematics Problems 9. While drag racing out of our school parking lot, I time myself at a speed of 40 meters per second seven seconds after starting. What was my acceleration during this time? Step 6: Substitute and solve. Vf = 40 m/s Vi = 0 m/s Δt = 7s a = ? a = (vf – vi)/Δt = (40 – 0 m/s)/7 s = 5.71 m/s 2

43 Solving Kinematics Problems 9. While drag racing out of our school parking lot, I time myself at a speed of 40 meters per second seven seconds after starting. What was my acceleration during this time? Step 5: Solve for the missing variable. Vf = 40 m/s Vi = 0 m/s Δt = 7s a = ? a = (vf – vi)/Δt

44 Solving Kinematics Problems 9. While drag racing out of our school parking lot, I time myself at a speed of 40 meters per second seven seconds after starting. What was my acceleration during this time? Step 5: Solve for the missing variable. Vf = 40 m/s Vi = 0 m/s Δt = 7s a = ? a = (vf – vi)/Δt

45 Solving Kinematics Problems Step 1: Read the Problem, underline key quantities Step 2: Assign key quantities a variable Step 3: Identify the missing variable Step 4: Choose the pertinent equation: Step 5: Solve for the missing variable. Step 6: Substitute and solve.

46 Solving Kinematics Problems 14. Use the following graph to answer the following questions about the acceleration of Bob the Pickup: a. What is the acceleration of Bob the Pickup in the first 10 minutes that the graph shows us?

47 Solving Kinematics Problems 14. Use the following graph to answer the following questions about the acceleration of Bob the Pickup: a. What is the acceleration of Bob the Pickup in the first 10 minutes that the graph shows us? Step 1: Read the Problem, underline key quantities

48 Classwork for 10/17 (p. 13)

49 Classwork for 10/17: Rubric (p. 12)

50 Classwork for 10/17 (p. 13)

51 Classwork for 10/17: (p. 14)

52 Classwork for 10/17: Rubric (p. 12)

53 Classwork for 10/17: (p. 14)

54 Group Work Grade the Results Sections on pages 15-16

55 Independent Work Grade the Results Sections on pages 16-17

Download ppt "Oct. 18, 2012 AGENDA: 1 – Bell Ringer 2 – Acceleration Lab 3 – Acceleration Lab Analysis Today’s Goal: Students will be able to understand calculate acceleration."

Similar presentations

Oct. 30, 2012 Today’s Goal: Students will be able to identify which kinematic equation to apply in each situation Homework 1. Pages 4-6 AGENDA: 1 – Bell.

Oct. 30, 2012 Today’s Goal: Students will be able to identify which kinematic equation to apply in each situation Homework 1. Pages 4-6 AGENDA: 1 – Bell.
Sept. 25, 2012 AGENDA: 1 – Bell Ringer 2 – Lab Explanation 3 – Lab 4 – Graphing Data 5 – Velocity on Position vs. Time Graphs Today’s Goal: Students will.

Sept. 25, 2012 AGENDA: 1 – Bell Ringer 2 – Lab Explanation 3 – Lab 4 – Graphing Data 5 – Velocity on Position vs. Time Graphs Today’s Goal: Students will.
Oct. 10th AGENDA: 1 – Bell Ringer 2 – Density Lab 3 – Cornell Notes: Phase Changes 4 – Practice Problems Today’s Goal: Students will be able to contrast.

Oct. 10th AGENDA: 1 – Bell Ringer 2 – Density Lab 3 – Cornell Notes: Phase Changes 4 – Practice Problems Today’s Goal: Students will be able to contrast.
Nov. 7th AGENDA: 1 – Bell Ringer 2 – Free Fall Acceleration 3 – Exit Ticket Today’s Goal: Students will be able to explain how free fall acceleration occurs.

Nov. 7th AGENDA: 1 – Bell Ringer 2 – Free Fall Acceleration 3 – Exit Ticket Today’s Goal: Students will be able to explain how free fall acceleration occurs.
Tuesday, October 23rd AGENDA: 1 – Bell Ringer 2 – Phase Change Diagrams 3 – Exit Ticket Announcements 2.5 pts of extra credit for coming for tutoring after.

Tuesday, October 23rd AGENDA: 1 – Bell Ringer 2 – Phase Change Diagrams 3 – Exit Ticket Announcements 2.5 pts of extra credit for coming for tutoring after.
Tuesday, October 16th AGENDA: 1 – Bell Ringer 2 – Phase Changes 3 – Exit Ticket Announcements 2.5 pts of extra credit for coming for tutoring after school.

Tuesday, October 16th AGENDA: 1 – Bell Ringer 2 – Phase Changes 3 – Exit Ticket Announcements 2.5 pts of extra credit for coming for tutoring after school.
Oct. 19, 2012 AGENDA: 1 – Bell Ringer 2 – Acceleration Review 3 – Finish Acceleration Assignments Today’s Goal: Students will be able to understand how.

Oct. 19, 2012 AGENDA: 1 – Bell Ringer 2 – Acceleration Review 3 – Finish Acceleration Assignments Today’s Goal: Students will be able to understand how.
November 5th AGENDA: 1 – Bell Ringer 2 – Review Today’s Goal: Students will be able to review for their unit test. Homework Start Reviewing for the test!

November 5th AGENDA: 1 – Bell Ringer 2 – Review Today’s Goal: Students will be able to review for their unit test. Homework Start Reviewing for the test!
Oct. 1, 2012 AGENDA: 1 – Bell Ringer 2 – Cornell Notes: Chemical & Physical Properties; Density 3 – Demos 4 – Start Homework Today’s Goal: Students will.

Oct. 1, 2012 AGENDA: 1 – Bell Ringer 2 – Cornell Notes: Chemical & Physical Properties; Density 3 – Demos 4 – Start Homework Today’s Goal: Students will.
Chemistry Week 24 Please get out your Notebook and calculator!

Chemistry Week 24 Please get out your Notebook and calculator!
Sept. 26, 2012 AGENDA: 1 – Bell Ringer 2 – Stations on Classifying Matter 3 – Classifying Matter Class Competition 4 – Exit Ticket Today’s Goal: Students.

Sept. 26, 2012 AGENDA: 1 – Bell Ringer 2 – Stations on Classifying Matter 3 – Classifying Matter Class Competition 4 – Exit Ticket Today’s Goal: Students.
Oct. 23, 2012 AGENDA: 1 – Bell Ringer 2 – Velocity Time Graphs 3 – Review of Quiz 2 Today’s Goal: Students will be able to construct velocity vs. time.

Oct. 23, 2012 AGENDA: 1 – Bell Ringer 2 – Velocity Time Graphs 3 – Review of Quiz 2 Today’s Goal: Students will be able to construct velocity vs. time.
Monday, September 23, 2013 Physics Warm Up Find the v i if v f =20m/s, a=4 m/s 2 and t=5s Standards: 1a Students know how to solve problems that involve.

Monday, September 23, 2013 Physics Warm Up Find the v i if v f =20m/s, a=4 m/s 2 and t=5s Standards: 1a Students know how to solve problems that involve.
Friday, October 26th AGENDA: 1 – Bell Ringer 2 – Quiz 3 – Metric Lab 4 – Exit Ticket Today’s Goal: Students will be able to convert between metric units.

Friday, October 26th AGENDA: 1 – Bell Ringer 2 – Quiz 3 – Metric Lab 4 – Exit Ticket Today’s Goal: Students will be able to convert between metric units.
Wednesday, October 31st AGENDA: 1 – Bell Ringer 2 – Homework Review 3 – Precision and Accuracy 4 – Chemical and Physical Changes Packet due tomorrow Today’s.

Wednesday, October 31st AGENDA: 1 – Bell Ringer 2 – Homework Review 3 – Precision and Accuracy 4 – Chemical and Physical Changes Packet due tomorrow Today’s.
 Pick up 2 sheets in the front  Pick up Calc  DO NOW IS THE VENN DIAGRAM DO NOW DUE NOW Thursday, August 29, 2013  Speed & Velocity Worksheet  HAVE.

 Pick up 2 sheets in the front  Pick up Calc  DO NOW IS THE VENN DIAGRAM DO NOW DUE NOW Thursday, August 29, 2013  Speed & Velocity Worksheet  HAVE.
Tuesday, October 30th AGENDA:

Tuesday, October 30th AGENDA:
Homework Due Tomorrow: 1. Quiz Corrections 2. Velocity HW (page 9) 3. Classroom Materials: 1. Scientific Calculator 2. Pens / Pencils 3. Notebook 4. Progress.

Homework Due Tomorrow: 1. Quiz Corrections 2. Velocity HW (page 9) 3. Classroom Materials: 1. Scientific Calculator 2. Pens / Pencils 3. Notebook 4. Progress.
Oct 5, 2012 AGENDA: 1 – Bell Ringer 2 – Review 3 – Quiz 4 – Density Today’s Goal: Students will succeed on their quiz Homework: 1.Density Handout.

Oct 5, 2012 AGENDA: 1 – Bell Ringer 2 – Review 3 – Quiz 4 – Density Today’s Goal: Students will succeed on their quiz Homework: 1.Density Handout.
Oct. 29, 2012 AGENDA: 1 – Bell Ringer 2 – Announcements 3 – Cornell Notes: Pure Substances & Mixtures 4 – Raise ‘em up 5 – Go with the Flow Today’s Goal:

Oct. 29, 2012 AGENDA: 1 – Bell Ringer 2 – Announcements 3 – Cornell Notes: Pure Substances & Mixtures 4 – Raise ‘em up 5 – Go with the Flow Today’s Goal:

Similar presentations

Ads by Google