CHAPTER 2 ACCELERATION
description
Transcript of CHAPTER 2 ACCELERATION
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CHAPTER 2 ACCELERATION
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CONSTANT vs CHANGING SPEED
Constant Speed occurs when an object covers the same distance in equal intervals of time.
Changing Speed occurs when an object covers different distance in equal intervals of time.
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CONSTANT vs. CHANGING VELOCITY
Constant Velocity occurs when an object covers the same displacement in equal intervals of time.
Changing Velocity occurs when an object covers different displacement in equal intervals of time.
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CONSTANT VELOCITY
05
1015202530
1 2 3 4Time (s)
Posit
ion
(m)
Constant Velocity Graph
constant velocity
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CHANGING VELOCITY
0
5
10
15
20
1 2 3 4Time (s)
Posit
ion
(m)
Changing Velocity Graph
velocity
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ACCELERATION
Acceleration will take place if there is a change in direction or speed of a moving object.
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ACCELERATIONAcceleration is the rate of changeof velocity.
if
if
ttvv
--
interval Time velocityonAccelerati
timeinitialttimefinalt
velocityinitialvvelocityfinalv
if
if
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Observe the animation of the three cars below. Which car or cars (red, green, and/or blue) are undergoing acceleration?
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0
5
10
15
20
1 2 3 4
0
2
4
6
8
1 2 3 4Velo
city
(m/s
)
Time (s) Time (s)Velo
city
(m/s
)
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PRACTICE PROBLEM 1A car’s velocity changes from 0 m/s to 30 m/s in 10 s. Calculate the car’s acceleration.
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2/310
/030
a
smssm
ttvv
if
if
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A car’s velocity changes from 10 km/h to 30 km/h, 30 min later. Calculate the car’s acceleration.
PRACTICE PROBLEM 2
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2
if
if
if
i
f
h/km40h5.
h/km1030ttvva
h5.0min30tth/km10vh/km30v
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Acceleration is positive
Acceleration is negative
Acceleration is positive
Acceleration is negative
Positive or Negative acceleration
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In Example A, the object is moving in the positive direction (i.e., has a positive velocity) and is speeding up. When an object is speeding up, the acceleration is in the same direction as the velocity. Thus, this object has a positive acceleration.
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In Example B, the object is moving in the negative direction (i.e., has a negative velocity) and is slowing down. When an object is slowing down, the acceleration is in the opposite direction as the velocity. Thus, this object also has a positive acceleration.
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1-D Constant Acceleration Equations
Vf = Vi + atDf = Vit + ½ at2
Vf2 = vi
2 + 2a(Df-Di)
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Problem #1If a car accelerates from rest at
a constant 4.2 m/s2, how long will it take for the car to reach a velocity of 37 m/s?
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Problem #1 Solution
2/2.4
/37/0
:
sma
smVsmV
Given
f
i
?
:tUnknown
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Problem #1 Solution
atVVOR
tVV
a
Equation
if
if
:
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Problem #1 Solution
tsmsmsm
Substitute/0/37/2.4
:
2
stSolve
81.8:
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Problem #2An airplane starts from rest
and accelerates at a constant 2.50 m/s2 for 30.0 s before leaving the ground. How far did the airplane move before leaving the ground?
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Problem #2 Solution
stsma
smVGiven
i
0.30/50.2
/0:
2
?:
fDUnknown
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Problem #2 Solution
2
21
:
attVD
Equation
if
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Problem #2 Solution
22 )0.30)(/50.2(21)0.30)(/0(
:
ssmssmD
Substitute
f
mDSolve
f 1125:
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Problem #3A parachutist descending at a speed of 10.50 m/s loses a shoe at an altitude of 38.50 m. What is the velocity of the shoe just before it hits the ground if it’s acceleration is 9.8 m/s2?
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Problem #3 Solution
mDDsma
smVGiven
if
i
50.38/8.9
/50.10:
2
?:
fVUnknown
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Problem #3 Solution
)(2
:22
ifif DDaVV
Equation
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Problem #3 Solution
)50.38)(/80.9(2)/50.10(
:222 msmsmV
Substitute
f
smV
V
V
Solve
f
f
f
/4.29
85.864
6.75425.110
:
2
2
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CHAPTER 2FREE FALL
ACCELERATION
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Free Fall with Air
Resistance
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Free Fallwithout
AirResistance
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Video Clips
http://www.smgaels.org/physics/home/videos/ForceMotion/freeFallPlot.html
Free Fall Displacement:
How does mass affect free fall?:http://www.smgaels.org/physics/home/videos/ForceMotion/massFreeFall.html
Moon hammer/feather drop:http://nssdc.gsfc.nasa.gov/planetary/lunar/apollo_15_feather_drop.html