5 0.1
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PH 105-003/4 ---- Friday, Aug. 22, 2007. Problem on uniform acceleration (from Ch. 2): A bike moving at constant velocity 5 m/s passes a car stopped at a light, as the light turns green and the car begins to accelerate at 2 m/s 2 . (a) When does the car pass the bike (in sec.)?. 5 0.1. - PowerPoint PPT PresentationTRANSCRIPT
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04/22/23 PH 105
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Problem on uniform acceleration (from Ch. 2):A bike moving at constant velocity 5 m/s passes a car stopped at a light, as the light turns green and the car begins to accelerate at 2 m/s2.(a) When does the car pass the bike (in sec.)?
PH 105-003/4 ---- Friday, Aug. 22, 2007
Equationsvf = vi + a txf = xi + vi t + ½ a t2
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04/22/23 PH 105
A. 10 m from light
B. 15 m
C. 20 m
D. 25 m
E. 40 m
F. 50 m
A bike moving at constant velocity 5 m/s passes a car stopped at a light, as the light turns green and the car begins to accelerate at 2 m/s2.(a) When does the car pass the bike?
Equationsvf = vi + a txf = xi + vi t + ½ a t2
(b) Where does this happen?
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04/22/23 PH 105
Problem on uniform acceleration:A bike moving at constant velocity 5 m/s passes a car stopped at a light, as the light turns green and the car begins to accelerate at 2 m/s2.(a) When does the car pass the bike?(b) Where does this happen?
A. EquationsB. vf = vi + a tC. xf = xi + vi t + ½ a t2
(c) How fast is the car moving then (in m/s)?
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04/22/23 PH 105
Components of a Vector• A component is a
projection of a vector along an axis– Any vector can be
completely described by its components
• It is useful to use rectangular components– These are the projections
of the vector along the x- and y-axes
PH 105-003/4Friday, Aug. 29, 2007
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04/22/23 PH 105
Math Review
Trigonometry
ca
b
sin = a/c, cos = b/ctan = a/b
c2 =a2 + b2 (Pythagorean Theorem)
Example: V
V = 785 km/h, find Vx and Vy
vy
VxVx = Vsin = 489 km/hVy = Vcos = 614 km/hCHECK: 7852 = 4892 + 6142
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Position and Displacement• The position of an
object is described by its position vector,
• The displacement of the object is defined as the change in its position
•
r
f ir r r
PH 105-003/4Wednesday, September 5, 2007
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Instantaneous Velocity• The instantaneous velocity
is the limit of the average velocity as Δt approaches zero
– As the time interval becomes smaller, the direction of the displacement approaches that of the line tangent to the curve
0limt
d
t dt
r rv
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Average Acceleration
f i
avgf it t t
v v va
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Motion with Uniform Acceleration in 3D
The velocity vector can be obtained from the definition of acceleration:
• The position vector can be expressed as a function of time:
21
2f i it tr r v a
f i tv v a
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Simplest case of uniformly-accelerated 2D motion:
Projectile motion (free fall)• a = constant = (0, -g, 0) = -g j
• ax = 0, ay = -g, az = 0
PH 105-003/4Friday, September 7, 2007
vx = vix + ax t x = xi + vix t + ½ ax t2 vy = viy + ay t y = yi + viy t + ½ ay t2
vx = vix (constant) x = xi + vix tvy = viy – gt (NOT const.)y = yi + viy t – ½ g t2
active figure 4.07
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Clicker Question The dome light breaks off in a car moving at a constant velocity 30 m/s. It will hit the floor
of the car:
A. Directly under its starting point
B. Behind its starting point
C. Ahead of its starting point
v = 30 m/s
AB C
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Assumptions of Projectile Motion
• The free-fall acceleration is constant over the range of the motion– It is directed downward– This is the same as assuming a flat Earth over the
range of the motion– It is reasonable as long as the range is small
compared to the radius of the Earth
• The effect of air friction is negligible• With these assumptions, an object in projectile
motion will follow a parabolic path (y ~ x2)
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Sample clicker question (test-taking skills): 40 20
?
A. 0
B. 1
C. 2
D. 3
E. 4
F. 5
G. 6
H. 7
PH 105-003/4 -- Monday, September 10, 2007
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04/22/23 PH 105
Sample clicker question (test-taking skills):A man walks 40 meters in 20 seconds. What is his average velocity, in m/s?
A. 0
B. 1
C. 2
D. 3
E. 4
F. 5
G. 6
H. 7
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Range of a Projectilevx = vix (constant) x = xi + vix tvy = viy – gt (NOT const.)y = yi + viy t – ½ g t2
means where does it return to y=0?
0 = 0 + viy t – ½ g t2
viy = ½ g t
t = 2viy/gis when, not where!
2 sin2i ivR
g
x = 0 + vix t = 2 vix viy /g= 2 vicos vi sin /g
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Range of a Projectile2 sin2i iv
Rg
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Uniform Circular Motion• Trajectory is a circle, so
ri = ri = r
• Use definitions of a, v:
v = a t, r = v t• If small,
v ~ v r ~ r so
at~ vr, vt~r Divide: a/v = v/r, or
a = v2 / r
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04/22/23 PH 105
Clicker question (vectors)A man walks 30 m north, then 40 m
east. The magnitude of his total displacement is (in m)
A. 10
B. 30
C. 40
D. 50
E. 70
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04/22/23 PH 105
Clicker Question: relative motionA UA student is driving (horizontally) 40 m/s in a convertible when 1 cm diameter hail starts to fall, vertically at 30 m/s.The speed with which the hail strikes her is
A. 30 m/s
B. 40 m/s
C. 50 m/s
D. 60 m/s
E. 70 m/s