1) The flywheel of a steam engine begins to rotate from rest with a constant ang
ID: 1453025 • Letter: 1
Question
1) The flywheel of a steam engine begins to rotate from rest with a constant angular acceleration of 1.23 rad/s2. It accelerates for 22.7 s, then maintains a constant angular velocity. Calculate the total angle through which the wheel has turned 57.7 s after it begins rotating. Hint:This is rotational motion, with equations for angles similar to those for linear motion. Note that the TOTAL time is given. Answer: ______ deg.
2) A proposed space station includes living quarters in a circular ring 52.5 m in diameter. At what angular speed should the ring rotate so the occupants feel that they have the same weight as they do on Earth? Hint: We assume that everyone lives at the given diameter. The rotation is around an axis through the center and perpendicular to the circle. Answer: ______ rad/s
3) A point on the rim of a 0.70 m diameter grinding wheel changes speed uniformly from 12 m/s to 20 m/s in 9.1 s. What is the average angular acceleration of the wheel during this interval? Answer: ________ rad/s^2
Explanation / Answer
for first 22.7 s
theta = wi*t + 1/2*alpha*t^2
wi = 0
theta = alpha*t^2/2
theta = 316.9 rad
after 22.7 its moving constant angular velocity
wf = wi + alpha*t
wf = 1.23 * 22.7 = 27.921 rad/s
for next 35 sec
theta = wf*t
theta = 977.235 rad
total = 977.235 + 316.9 = 1294.135 rad
= 74148.47 degree
part 2 )
v^2/r = g
v = wr
w^*r = g
w = sqrt(g/r)
w = 0.611 rad/s
part 3 )
alpha = a/r
a = linear accelearation
a = vf-vi/t
a = 20 -12 /9.1
a = 8/9.1
alpha = a/r
r = 0.35 m
alpha = 2.51 rad/s^2
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