oct. 16, 2012
DESCRIPTION
Oct. 16, 2012. AGENDA: 1 – Bell Ringer 2 – Acceleration Classwork. Today’s Goal: Students will be able to understand acceleration conceptually & be able to calculate it Homework Acceleration HW (p 8 – 11) –Due tomorrow. CHAMPS for Bell Ringer. C – Conversation – No Talking - PowerPoint PPT PresentationTRANSCRIPT
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Oct. 16, 2012AGENDA:1 – Bell Ringer2 – Acceleration
Classwork
Today’s Goal:Students will be able to understand acceleration conceptually & be able to calculate itHomework1. Acceleration HW (p 8 –
11) –Due tomorrow
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CHAMPS for Bell RingerC – 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!
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Tuesday, Oct. 16th (p. 21)Objective: Students will be able to understand acceleration conceptually & be able to calculate it
Bell Ringer:1. When you slow down is that
acceleration?2. Describe 2 situations from
your life where you are accelerating.
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4 MINUTES REMAINING…
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Tuesday, Oct. 16th (p. 21)Objective: Students will be able to understand acceleration conceptually & be able to calculate it
Bell Ringer:1. When you slow down is that
acceleration?2. Describe 2 situations from
your life where you are accelerating.
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3 MINUTES REMAINING…
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Tuesday, Oct. 16th (p. 21)Objective: Students will be able to understand acceleration conceptually & be able to calculate it
Bell Ringer:1. When you slow down is that
acceleration?2. Describe 2 situations from
your life where you are accelerating.
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2 MINUTES REMAINING…
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Tuesday, Oct. 16th (p. 21)Objective: Students will be able to understand acceleration conceptually & be able to calculate it
Bell Ringer:1. When you slow down is that
acceleration?2. Describe 2 situations from
your life where you are accelerating.
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1minute Remaining…
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Tuesday, Oct. 16th (p. 21)Objective: Students will be able to understand acceleration conceptually & be able to calculate it
Bell Ringer:1. When you slow down is that
acceleration?2. Describe 2 situations from
your life where you are accelerating.
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30 Seconds Remaining…
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Tuesday, Oct. 16th (p. 21)Objective: Students will be able to understand acceleration conceptually & be able to calculate it
Bell Ringer:1. When you slow down is that
acceleration?2. Describe 2 situations from
your life where you are accelerating.
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BELL-RINGER TIME IS
UP!
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Tuesday, Oct. 16th (p. 21)Objective: Students will be able to understand acceleration conceptually & be able to calculate it
Bell Ringer:1. When you slow down is that
acceleration?2. Describe 2 situations from
your life where you are accelerating.
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Shout OutsPeriod 5 – Nana JenkinsPeriod 7 – Shawn Osbey, Paul Webster
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Oct. 16, 2012AGENDA:1 – Bell Ringer2 – Acceleration
Classwork
Today’s Goal:Students will be able to understand acceleration conceptually & be able to calculate itHomework1. Acceleration HW (p 8 –
11) –Due tomorrow
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Week 6Weekly AgendaMonday – AccelerationTuesday – AccelerationWednesday – Results Section of
LabsThursday – Acceleration LabFriday – Quiz # 3
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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
4-7M – Materials and Movement –
Pen/Pencil, Packet Pages 4-7P – Participation – Complete Page 3-4S – Success – Understand all
Problems
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interval timentdisplaceme = velocity average
tdv
_
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Acceleration
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Classwork for Tuesday, 10/16/12 (p. 4)
1) Define: Velocity: Acceleration:
Equation: Equations: =
If you have a constant velocity...your acceleration is __________________
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Classwork for Tuesday, 10/16/12 (p. 4)
1) Define: Velocity: Change in displacement Acceleration: Change in velocity over over time. time
Equation: v = Δd/Δt Equations: a = Δv/Δt = change in
If you have a constant velocity...your acceleration is zero
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Classwork for Tuesday, 10/16/12 (p. 4)2) Determine whether the object in the story is accelerating and whether the velocity is increasing decreasing or neither. a) A ball is dropped off a bridge Accelerating? Yes No Velocity? Increase / Decrease / Neither b) A man is running at a constant speed Accelerating? Yes No Velocity? Increase / Decrease / Neither c) A car slams on the brakes to miss hitting a deer. Accelerating? Yes No Velocity? Increase / Decrease / Neither d) After the starting gun fires a running starts running Accelerating? Yes No Velocity? Increase / Decrease / Neither e) A car is traveling at a constant 45 meters second. Accelerating? Yes No Velocity? Increase / Decrease / Neither f) A ball slows as it rolls up hill. Accelerating? Yes No Velocity? Increase / Decrease / Neither
Challenge!!!!! Can you figure out the sign of each acceleration? (+ or -)
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Classwork for Tuesday, 10/16/12 (p. 4)
2) Determine whether the object in the story is accelerating and whether the velocity is increasing decreasing or neither. a) A ball is dropped off a bridge Accelerating? Yes No Velocity? Increase / Decrease / Neither b) A man is running at a constant speed Accelerating? Yes No Velocity? Increase / Decrease / Neither c) A car slams on the brakes to miss hitting a deer. Accelerating? Yes No Velocity? Increase / Decrease / Neither d) After the starting gun fires a running starts running Accelerating? Yes No Velocity? Increase / Decrease / Neither e) A car is traveling at a constant 45 meters second. Accelerating? Yes No Velocity? Increase / Decrease / Neither f) A ball slows as it rolls up hill. Accelerating? Yes No Velocity? Increase / Decrease / Neither
Challenge!!!!! Can you figure out the sign of each acceleration? (+ or -)
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Classwork for Tuesday, 10/16/12 (p. 4)
3) When you drop a ball from your hand, it starts out with no velocity. It accelerates downward at 9.8 m/s^2, gaining speed as it goes. What is accelerating this object?
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Classwork for Tuesday, 10/16/12 (p. 4)
3) When you drop a ball from your hand, it starts out with no velocity. It accelerates downward at 9.8 m/s^2, gaining speed as it goes. What is accelerating this object? Gravity
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Classwork for Tuesday, 10/16/12 (p. 5)
4) Light travels at a constant speed of 300,000,000 m/s. What is light’s acceleration?
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Classwork for Tuesday, 10/16/12 (p. 5)
5. A car traveled 1025 kilometers from El Paso to Dallas in 13.5 hours. What was its average velocity?
GIVEN WORK
ANSWER
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Classwork for Tuesday, 10/16/12 (p. 5)
5. A car traveled 1025 kilometers from El Paso to Dallas in 13.5 hours. What was its average velocity?
GIVEN WORK
ΔD = 1025 KM ΔT = 13.5 HRS V = ?
V = ΔD/ ΔT = 1025/13.5 = 75.9 KM / HR
ANSWER: 75.9 KM / HR
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Classwork for Tuesday, 10/16/12 (p. 5)
6. A car traveling north with a velocity of 30 m/s slows down to a velocity of 10 m/s within 10 seconds. What is the car’s acceleration?
GIVEN WORK
ANSWER
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Classwork for Tuesday, 10/16/12 (p. 5)
6. A car traveling north with a velocity of 30 m/s slows down to a velocity of 10 m/s within 10 seconds. What is the car’s acceleration?
GIVEN WORK
VI = 30 M/S VF = 10 M/S ΔT = 10 S A = ?
A = (VF – VI)/ΔT = (10 – 30 M/S)/10S = -2 M/S2
ANSWER: -2 M/S2
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Classwork for Tuesday, 10/16/12 (p. 5)
7. If the average velocity of a car is 45 km/hr, how far can it travel in 40 min? GIVEN WORK
ANSWER
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Classwork for Tuesday, 10/16/12 (p. 5)
7. If the average velocity of a car is 45 km/hr, how far can it travel in 40 min? GIVEN WORK
V = 45 KM/HR TIME = 40 MINS = .67 HOURS
V = ΔD/ΔT ΔD = VΔT ΔD = (45 KM/HR)(.67) = 30 KM
ANSWER: 30 KM
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Classwork for Tuesday, 10/16/12 (p. 5)
8. Falling objects drop with an average acceleration of 9.8 m/s2. If an object falls from a tall building, how long will it take before it reaches a velocity of 49 m/s?
GIVEN WORK
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Classwork for Tuesday, 10/16/12 (p. 5)
8. Falling objects drop with an average acceleration of 9.8 m/s2. If an object falls from a tall building, how long will it take before it reaches a velocity of 49 m/s?
GIVEN WORK
A = 9.8 M/S2
VF = 49 M/S VI = 0 M/S ΔT = ?
A = (VF – VI)/ΔT ΔT = (VF – VI)/A = (49 M/S – 0 M/S)/(9.8 M/S2) = 5 S
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Classwork for Tuesday, 10/16/12 (p. 6)
11. If I were to accelerate at this rate for another ninety seconds, how fast would I be going?
12. If I were to drop a ball out of my car while I was traveling at a velocity of 25 m/s,
and it underwent a deceleration of 2.0 m/s/s while rolling to a stop, how long would it take for it to stop?
13. How far would it roll in this time?
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Classwork for Tuesday, 10/16/12 (p. 7)
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?
b. What is the acceleration of Bob the Pickup during t=20 to t=30?
0500
10001500200025003000
0 10 20 30 40 50 60
Velo
city
(fee
t/min
ute)
Time (minutes)
Velocity of Bob the Pickup
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Classwork for Tuesday, 10/16/12 (p. 7)
a. What is the acceleration of Bob the Pickup in the first 10 minutes that the graph shows us?
a = (1000-0 ft/min)/(10 min) = 100 ft/min2
b. What is the acceleration of Bob the Pickup during t=20 to t=30? a =(1500 – 1000 ft/min)/(30-20 min) = 50 ft/min2
0500
10001500200025003000
0 10 20 30 40 50 60
Velo
city
(fee
t/min
ute)
Time (minutes)
Velocity of Bob the Pickup
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Classwork for Tuesday, 10/16/12 (p. 7)
a. What is the acceleration of Bob the Pickup in the first 10 minutes that the graph shows us?
a = (1000-0 ft/min)/(10 min) = 100 ft/min2
b. What is the acceleration of Bob the Pickup during t=20 to t=30? a =(1500 – 1000 ft/min)/(30-20 min) = 50 ft/min2
c. When is there no acceleration?
d. When is Bob slowing down? What is his acceleration then?
e. What is Bob’s average acceleration between t=40 minutes and t=60 minutes?
f. What is Bob’s average acceleration between t=10 and t=60?
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Classwork for Tuesday, 10/16/12 (p. 8)
Homework 4: Acceleration (due Wednesday, 10/17/12)
DIRECTIONS: Solve the following situation problems using equations for velocity and acceleration.
1. What is the velocity of a rocket that travels 9000 meters in 12.12 seconds?
2. What is the velocity of a jet plane that travels 528 meters in 4 seconds?
3. After an impact involving a non-functioning satellite, a paint chip leaves the surface of the satellite at a velocity of 96 m/s. After 17 seconds, how far has the chip landed?
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Classwork for Tuesday, 10/16/12 (p. 8)