Two constant forces act on a 5.00-kg object moving in the xy-plane, as shown in the figure below, Force F is 25.0 N at 0 = 37.0° from x-axis, while F 40.0 N at p = 37.0° from y-axis. At time t = 0, the object is at the origin and has velocity vi (4.0i + 2.5) m/s. Using the unit-vector notation %3D (a) Find the total force on the object and its acceleration, (b) What is the object's velocity at the instant t = 3.00 s?, (e) What is its location at time t = 3.0 s?, (f) What is its kinetic energy at this moment?, and (g) How much work is done by the total force in this time? y F2 F1

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Chapter1: Units, Trigonometry. And Vectors
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Two constant forces act on a 5.00-kg object moving in the xy-plane, as
shown in the figure below, Force F, is 25.0 N at 0 = 37.0° from x-axis, while F =
40.0 N at o = 37.0º from y-axis. At time t = 0, the object is at the origin and has
velocity v, (4.0i + 2.5j) m/s. Using the unit-vector notation
(a) Find the total force on the object and its acceleration,
(b) What is the object's velocity at the instant t = 3.00 s?,
(e) What is its location at time t = 3.0 s?,
(f) What is its kinetic energy at this moment?, and
(g) How much work is done by the total force in this time?
y
F2
F1
m
Transcribed Image Text:Two constant forces act on a 5.00-kg object moving in the xy-plane, as shown in the figure below, Force F, is 25.0 N at 0 = 37.0° from x-axis, while F = 40.0 N at o = 37.0º from y-axis. At time t = 0, the object is at the origin and has velocity v, (4.0i + 2.5j) m/s. Using the unit-vector notation (a) Find the total force on the object and its acceleration, (b) What is the object's velocity at the instant t = 3.00 s?, (e) What is its location at time t = 3.0 s?, (f) What is its kinetic energy at this moment?, and (g) How much work is done by the total force in this time? y F2 F1 m
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