Circular Motion Tangential & Angular Acceleration
Circular Motion Tangential & Angular Acceleration
? Tangential Acceleration:
vt
The arc length s is related to the angle (in radians = rad)
as follows: s = r
The tangential velocity vt is related to the angular velocity
as follows: vt = r
Tangential Velocity
The tangential acceleration at is related to the angular acceleration as follows:
at
=
dvt dt
= r d
dt
= rvt = r
= lim = d
t0 t dt
(radians/s2)
at
? Overall Acceleration:
artot = arradial + art = -aradial r^ + at^
Tangential Acceleration
Radial Axis
ar r
atot = artot =
a2 radial
+
at2
Radial Acceleration
Rick Field 2/6/2014 University of Florida
PHY 2053
Page 1
Angular Equations of Motion
? Angular Equations of Motion (constant ):
If the angular acceleration is constant then
(t) = (radians/s2)
at (t) = r
(m/s2)
(t) = 0 + t (radians/s)
vt (t) = vt0 + att (m/s)
(t)
=
0
+
0t
+
1 2
t 2
(radians)
s(t)
=
s0
+
vt 0t
+
1 2
att 2
(m)
2 (t) - 02 = 2 ( (t) -0 )
aradial (t) = r 2 (t) (m/s2)
at
v
2
t
(t
)
- vt20
=
2at (s(t)
-
s0 )
aradial (t)
=
v
2
t
(t
)
/
r
(m/s2)
Radial Axis
ar
Tangential Acceleration
r
Radial Acceleration
Rick Field 2/6/2014 University of Florida
PHY 2053
Page 2
Angular Equations of Motion
? Angular Equations of Motion (constant ):
Let N = Number of revolutions (rev) Let f = Number of revolutions per second
N
(t
)
=
(t) 2
f
(t)
=
(t) 2
(frequency)
(t) = (rad/s2)
(t) = 0 + t (rad/s)
(t)
=
0
+
0t
+
1 2
t
2
(rad)
2 (t) - 02 = 2 ( (t) -0 )
(rev/s2)
2
f (t) =
f0
+
(
2
)t
(rev/s)
N (t)
=
N0
+
f0t +
1 2
(
2
)t
2
(rev)
f
2 (t) -
f
2 0
=
2(
2
)(N (t)
-
N0 )
Rick Field 2/6/2014 University of Florida
PHY 2053
Page 3
Angular Equations: Examples
? A disk rotates about its central axis starting from rest at t = 0 and
accelerates with constant angular acceleration. At one time it is
rotating at 4 rev/s; 60 revolutions later, its angular speed is 16 rev/s.
Starting at t = 0, what is the time required to complete 64 revolutions?
2
=
f 2 (t)
2(N (t)
- -
f
2 0
N0
)
=
(16rev / s)2 - (4rev / s)2
2(60rev)
= 2rev / s2
N (t)
-
N0
=
1 2
(
2
)t 2
t = 2(N (t) - N0 ) =
(
2
)
Answer: t = 8 seconds
2(64rev) (2rev / s2 )
= 8s
? An astronaut is being tested in a centrifuge. The centrifuge has a radius R and, in starting from rest at t = 0, rotates with a constant angular acceleration = 0.25 rad/s2 . At what time t > 0 is the magnitude of the tangential acceleration equal to the magnitude of the radial acceleration (i.e. centripetal acceleration)?
aradial (t) = R 2 (t) = R 2t 2 = at = R
t= 1 =
1
= 2s
0.25rad / s2
Rick Field 2/6/2014 University of Florida
PHY 2053
Answer: t = 2 seconds
Page 4
Exam 2 Spring 2011: Problem 2
? A race car accelerates uniformly from a speed of 40 m/s to
a speed of 58 m/s in 6 seconds while traveling around a
circular track of radius 625 m. When the car reaches a
speed of 50 m/s what is the magnitude of its total acceleration (in m/s2)?
Answer: 5 % Right: 49%
at
=
v2 t2
- v1 - t1
=
(58m /
s) - (40m 6s
/
s)
=
3m /
s
ar
=
v2 R
=
(50m / s)2 625m
=
4m / s
atot = at2 + ar2 = 5m / s
Rick Field 2/6/2014 University of Florida
PHY 2053
Page 5
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