A particle P travels with constant speed on a circle of radius r = 4.80 m (see the figure) and completes one revolution in 20.0 s. The particle passes through O at time t = 0. At t = 5.00 s, what is the particle's position vector? Give (a) magnitude and (b) direction (as an angle relative to the positive direction of X. At t = 7.50 s, what is the particle's position vector? Give (c) magnitude and (d) direction (as an angle relative to the positive direction of X. At t = 10.00 s, what is the particle's position vector? Give (e) magnitude and (f) direction (as an angle relative to the positive direction of X.

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A particle P travels with constant speed on a circle of radius r = 4.80 m (see the figure) and completes one revolution in 20.0s. The
particle passes through O at time t = 0.
At t = 5.00 s, what is the particle's position vector? Give (a) magnitude and (b) direction (as an angle relative to the positive direction of
X.
At t = 7.50 s, what is the particle's position vector? Give (c) magnitude and (d) direction (as an angle relative to the positive direction of
X.
At t = 10.00 s, what is the particle's position vector? Give (e) magnitude and (f) direction (as an angle relative to the positive direction of
X.
For the 5.00 s interval from the end of the fifth second to the end of the tenth second, find the particle's displacement. Give (g)
magnitude and (h) direction (as an angle relative to the positive direction of x.
For that interval, find its average velocity. Give (i) magnitude and (j) direction (as an angle relative to the positive direction of x.
For that interval, find its velocity at the beginning. Give (k) magnitude and (I) direction (as an angle relative to the positive direction of
X.
For that interval, find its velocity at the end of the interval. Give (m) magnitude and (n) direction (as an angle relative to the positive
direction of x.
Find the acceleration at the beginning of that interval. Give (o) magnitude and (p) direction (as an angle relative to the positive
direction of x.
Next, find the acceleration at the end of that interval. Give (q) magnitude and (r) direction (as an angle relative to the positive direction
of x.
(a) Number i
(b) Number i
(c) Number i
(d) Number i
Units
Units
Units
Units
0
Transcribed Image Text:Current Attempt in Progress A particle P travels with constant speed on a circle of radius r = 4.80 m (see the figure) and completes one revolution in 20.0s. The particle passes through O at time t = 0. At t = 5.00 s, what is the particle's position vector? Give (a) magnitude and (b) direction (as an angle relative to the positive direction of X. At t = 7.50 s, what is the particle's position vector? Give (c) magnitude and (d) direction (as an angle relative to the positive direction of X. At t = 10.00 s, what is the particle's position vector? Give (e) magnitude and (f) direction (as an angle relative to the positive direction of X. For the 5.00 s interval from the end of the fifth second to the end of the tenth second, find the particle's displacement. Give (g) magnitude and (h) direction (as an angle relative to the positive direction of x. For that interval, find its average velocity. Give (i) magnitude and (j) direction (as an angle relative to the positive direction of x. For that interval, find its velocity at the beginning. Give (k) magnitude and (I) direction (as an angle relative to the positive direction of X. For that interval, find its velocity at the end of the interval. Give (m) magnitude and (n) direction (as an angle relative to the positive direction of x. Find the acceleration at the beginning of that interval. Give (o) magnitude and (p) direction (as an angle relative to the positive direction of x. Next, find the acceleration at the end of that interval. Give (q) magnitude and (r) direction (as an angle relative to the positive direction of x. (a) Number i (b) Number i (c) Number i (d) Number i Units Units Units Units 0
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