A particle moves in a circular path at constant speed. The initial location of the particle is (4.24 m, 6.05 m) at t = 4 s. The velocity of the particle at this time is 3.02 m/s (i.e., directed along the positive y-axis). Acceleration at this time is along the +x axis. At t=10.6 s, v is -3.02 m/s i and the acceleration is directed along the +y axis. Find the radius of the circle. For this problem assume the time interval is less than one full period. T= Find the x-coordinate of the center of the circle (in meters): center m = m
A particle moves in a circular path at constant speed. The initial location of the particle is (4.24 m, 6.05 m) at t = 4 s. The velocity of the particle at this time is 3.02 m/s (i.e., directed along the positive y-axis). Acceleration at this time is along the +x axis. At t=10.6 s, v is -3.02 m/s i and the acceleration is directed along the +y axis. Find the radius of the circle. For this problem assume the time interval is less than one full period. T= Find the x-coordinate of the center of the circle (in meters): center m = m
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Transcribed Image Text:A particle moves in a circular path at constant speed. The initial location of
the particle is (4.24 m, 6.05 m) at t = 4 s. The velocity of the particle at this
time is 3.02 m/s 3 (i.e., directed along the positive y-axis). Acceleration at
this time is along the +x axis. At t=10.6 s, v is -3.02 m/s i and the
acceleration is directed along the +y axis. Find the radius of the circle.
For this problem assume the time interval is less than one full period.
T
Find the x-coordinate of the center of the circle (in meters):
Xcenter
m
=
m
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