. A stopwatch starts while race car travels at 13 m/s from the pit area and accelerates at a uniform rate to a speed of 37 m/s in 5 s moving on a circular track of radius 548 m. Assuming constant tangential acceleration, find (a) the tangential acceleration, and (b) the radial acceleration,at the instant when the speed is v=7 Once you have both of those…. find the magnitude of a at any moment a=
. A stopwatch starts while race car travels at 13 m/s from the pit area and accelerates at a uniform rate to a speed of 37 m/s in 5 s moving on a circular track of radius 548 m. Assuming constant tangential acceleration, find (a) the tangential acceleration, and (b) the radial acceleration,at the instant when the speed is v=7 Once you have both of those…. find the magnitude of a at any moment a=
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1. A stopwatch starts while race car travels at
13 m/s from the pit area and accelerates at a
uniform rate to a speed of 37 m/s in 5 s
moving on a circular track of radius 548 m.
Assuming constant tangential acceleration,
find
(a) the tangential acceleration, and
(b) the radial acceleration,at the instant when
the speed is v=7
Once you have both of those…. find the
magnitude of a at any moment
a=
2. A stopwatch starts while race car travels at
5 m/s from the pit area and accelerates at a
uniform rate to a speed of 23 m/s in 16 s
moving on a circular track of radius 466 m.
Assuming constant tangential acceleration,
find
(a) the tangential acceleration, and
(b) the radial acceleration,at the instant when
the speed is v=15
Once you have both of those …. find the
magnitude of a at any moment
a=
3. A stopwatch starts while race car travels at 7.0 m/s from the pit area and accelerates at a uniform rate to a speed of 22 m/s in 3 s moving on a circular track of radius 491 m.
Assuming constant tangential acceleration, find
(a) the tangential acceleration, and
(b) the radial acceleration,at the instant when the speed is v = 16
Once you have both of those ... find the magnitude of a at any moment
a =
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