Problem 2kg, are given as functions of The positions of two objects with masses my = m₂ time: F(t)= (t2)i + (31)j. F₂(t) = (t)i + (t+2) where r is in meters. The two objects collide at t= 1 and stick together. Find the velocity vector of the compound object 4kg after the collision. with mass mT ==

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The positions of two objects with masses m₁ = m₂ = 2kg. are given as functions of
time: F(t) = (t2)i + (31)j, F₂(t) = (t)i + (t+2), where r is in meters. The two objects
= 1 and stick together. Find the velocity vector of the compound object
collide at t =
4kg after the collision.
with mass mT =
Transcribed Image Text:Problem The positions of two objects with masses m₁ = m₂ = 2kg. are given as functions of time: F(t) = (t2)i + (31)j, F₂(t) = (t)i + (t+2), where r is in meters. The two objects = 1 and stick together. Find the velocity vector of the compound object collide at t = 4kg after the collision. with mass mT =
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