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 Ringer2 – Acceleration

Review3 – Finish

Acceleration Assignments

Today’s Goal:Students will be able to understand how to calculate acceleration using a step by step methodHomework

1. Finish packet except pages 7, 10-17

CHAMPS for Bell Ringer

C – Conversation – No Talking H – Help – RAISE HAND for questionsA – 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!

Friday, Oct. 19th (p. 22)

Objective: Students will be able to understand how to calculate acceleration using a step by step method.

Bell Ringer:1. Your car is initially parked.

You speed up to 60 m/s in 6s. What is your acceleration?

2. How do you calculate acceleration from a velocity time graph?

4 MINUTES REMAINING…


















1minute Remaining…






30 Seconds Remaining…






BELL-RINGER TIME IS

UP!










a = (60 – 0 m/s)/6 s = 10 m/s2


Shout Outs

Period 5 – Karen RobinsonPeriod 7 – Davia Washington, Christopher Yates, Riccardo Tucker

Oct. 19, 2012

AGENDA:1 – Bell Ringer2 – Acceleration

Review3 – Finish

Acceleration Assignments

Today’s Goal:Students will be able to understand how to calculate acceleration using a step by step methodHomework

1. Finish packet except pages 7, 10-17

Week 6

Weekly AgendaMonday – AccelerationTuesday – AccelerationWednesday – Acceleration & Results Section of LabsThursday – Acceleration LabFriday – Review

Quiz on Monday!

CHAMPS for Acceleration Problems

C – Conversation – No Talking unless directed to work in groups

H – Help – RAISE HAND for questionsA – Activity – Solve Problems on Page

6-11M – Materials and Movement –

Pen/Pencil, Packet Pages 6-11P – Participation – Complete Page 6-

11S – Success – Understand all

Problems

Solving Kinematics Problems

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

Solving Kinematics Problems (p. 8)

1. What is the velocity of a rocket that travels 9000 meters in 12.12 seconds?



Step 1: Read the Problem, underline key quantities






Step 2: Assign key quantities a variable

Δx = 9000 mΔt = 12.12 s



Step 3: Identify the missing variable

Δx = 9000 mΔt = 12.12 s

v = ?



Step 4: Choose the pertinent equation:

Δx = 9000 mΔt = 12.12 s

v = ?

Δx = xf – xi v = Δx/Δt a = (vf – vi)/Δt




Δx = 9000 mΔt = 12.12 s

v = ?





Δx = 9000 mΔt = 12.12 s

v = ?




Step 5: Solve for the missing variable

Δx = 9000 mΔt = 12.12 s

v = ?




Step 6: Substitute and solve.

Δx = 9000 mΔt = 12.12 s

v = ?

v = Δx/Δt = 9000 m/12.12 s = 742 m/s




2. What is the velocity of a jet plane that travels 528 meters in 4 seconds?

Do Question 2 with your groups!













Δx = 528 sΔt = 4 s




Δx = 528 sΔt = 4 s

v = ?




Δx = 528 sΔt = 4 s

v = ?




Step 5: Solve for the missing variable.

Δx = 528 sΔt = 4 s

v = ?

v = Δx/Δt



Step 6: Substitute and solve.

Δx = 528 sΔt = 4 s

v = ?

v = Δx/Δt = 528 m / 4 s = 132 m/s




You do question 3!


4. The space shuttle Endeavor is launched to altitude of

500 km above the surface of earth. The shuttle travels at an average rate of 700 m/s. How long will it take for Endeavor to reach its orbit?














Δx = 500 km * 1000 m / km = 500,000 mv = 700 m/s





Δx = 500 km * 1000 m / km = 500,000 mv = 700 m/s





Δx = 500 km * 1000 m / km = 500,000 mv = 700 m/sΔt = ?





Δx = 500 km * 1000 m / km = 500,000 mv = 700 m/sΔt = ?






Δx = 500 km * 1000 m / km = 500,000 mv = 700 m/sΔt = ?

v = Δx/Δt





Δx = 500 km * 1000 m / km = 500,000 mv = 700 m/sΔt = ?

Δt * v = Δx * Δt Multiply both Δt sides by Δt





Δx = 500 km * 1000 m / km = 500,000 mv = 700 m/sΔt = ?

vΔt = Δx Divide both sides by v





Δx = 500 km * 1000 m / km = 500,000 mv = 700 m/sΔt = ?

vΔt = Δx Divide both v v sides by v





Δx = 500 km * 1000 m / km = 500,000 mv = 700 m/sΔt = ?

Δt = Δx Divide both v sides by v





Δx = 500 km * 1000 m / km = 500,000 mv = 700 m/sΔt = ?

Δt = Δx = 500,000 m = 714 s v 700 m/s


You do question 5 in groups!


You do question 6 alone!


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?

0 10 20 30 40 50 600

500

1000

1500

2000

2500

3000

Velocity of Bob the Pickup

Time (minutes)

Velo

cit

y (

feet/

min

ute

)



the Pickup:


us?




the Pickup:


us?


vf = 1000 ft/minvi = 0 ft/minΔt = 10 min



the Pickup:


us?


vf = 1000 ft/minvi = 0 ft/minΔt = 10 min



the Pickup:


us?


vf = 1000 ft/minvi = 0 ft/minΔt = 10 mina = ?



the Pickup:


us?

Step 4: Choose the pertinent equation:vf = 1000 ft/minvi = 0 ft/minΔt = 10 mina = ?

Δx = xf – xi V = Δx/Δt a = (vf – vi)/Δt



the Pickup:


us?

Step 4: Choose the pertinent equation:vf = 1000 ft/minvi = 0 ft/minΔt = 10 mina = ?

Δx = xf – xi V = Δx/Δt a = (vf – vi)/Δt

Classwork for 10/17 (p. 13)

Example 1: Growth Table

Growth of Plant (cm) Time (days)

1.0 `1 1.0 2 1.0 3 1.0 4 0.9 5 1.0 6 0.3 7 0.2 8 0.3 9 0.3 10 1.0 11 1.0 12

What do you expect the data table earned (out of 3)? Why?

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

Data Table: 0 Points: Data is not given in a data table.

1 Point: There is a data table. A large amount of data is wrong or missing. Table is not drawn neatly. Units are not given. Data table has no title, or a title that makes no sense.

2 Points: Data is recorded in a data table. Some mistakes may have been made, but table is mostly accurate. Table is not drawn very neatly. Units are not given correctly, or at all. Data table has no title, or a title that makes no sense.

3 Points: All data is accurately recorded in a data table. Data table is neatly drawn. Units are given correctly. Data table is titled (e.g. Table 1: Position vs. Time of Walker)

Classwork for 10/17 (p. 13)

Example 1: Growth Table

Growth of Plant (cm) Time (days)

1.0 `1 1.0 2 1.0 3 1.0 4 0.9 5 1.0 6 0.3 7 0.2 8 0.3 9 0.3 10 1.0 11 1.0 12

What do you expect the data table earned (out of 3)? Why? 3/3, because it is complete, neatly drawn, has correct units, and has a title

Classwork for 10/17: (p. 14)

The growth of the plant each day is recorded in Table 1. As Figure 1 shows, growth was fairly constant from days 1 through six. On day 7, the growth of the plant fell markedly, and then rose back to its earlier value on day 11. What do you expect the graph earned (out of 3)? Why? What do you expect the text earned (out of 3)? Why?

Figure 1: Growth of Plant vs. Time

0

0.2

0.4

0.6

0.8

1

1.2

1 2 3 4 5 6 7 8 9 10 11 12

Time (days)

Gro

wth

(cm

)

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

Graph: 0 Points: Data is not graphed.

1 Point: There is a graph, but the data is mostly plotted incorrectly, or mostly missing. Axes may be backwards. Graph is very sloppy. Axes are too big or too small—graph is too “zoomed out” or too “zoomed in”. Axes are unlabeled. Graph has no title, or title doesn’t make sense.

2 Points: Data is plotted on a graph, but a few mistakes have been made. Axes may be backwards. Graph is a little sloppy. Axes are too big or too small—graph is too “zoomed out” or too “zoomed in”. Axes are labeled, but without units. Graph has no title, or the title doesn’t make sense.

3 Points: All pertinent data is correctly plotted in a graph. Axes are correct. Graph is neatly drawn. Axes are sized to show all data without being too “zoomed out” Axes are labeled, with units. Graph is titled (e.g. Figure 1: Position vs. Time of Walker)

Classwork for 10/17: (p. 14)

The growth of the plant each day is recorded in Table 1. As Figure 1 shows, growth was fairly constant from days 1 through six. On day 7, the growth of the plant fell markedly, and then rose back to its earlier value on day 11. What do you expect the graph earned (out of 3)? Why? 3/3, Graph is titled, neat, axes are labeled, and all pertinent data is there. What do you expect the text earned (out of 3)? Why? 3/3, professional tone, mentions title, clear language, measures important features (change in growth rate)

Figure 1: Growth of Plant vs. Time

0

0.2

0.4

0.6

0.8

1

1.2

1 2 3 4 5 6 7 8 9 10 11 12

Time (days)

Gro

wth

(cm

)

Group Work

Grade the Results Sections on pages 15-16

Independent Work

Grade the Results Sections on pages 16-17

Documents

Oct. 19, 2012 AGENDA: 1 – Bell Ringer 2 – Acceleration Review 3 – Finish Acceleration Assignments Today’s Goal: Students will be able to understand how