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A 3.0 kg toy car can move along an x axis. The figure gives Fx of the force acting on the car, which begins at rest at time t = 0. The scale on the Fx axis is set by FXs = 4.0 N. In unit-vector notation, what is P→ at (a)t = 2.0 s and (b)t = 8.0 s, (c) what is v→ at t = 8.0 s? Fx(N) (a) Number i^ i j^ k^ Units (b) Number i^ + j^ + k^ Units (c) Number i^ + j^ + k^ Units

A 3.0 kg toy car can move along an x axis. The figure gives Fx of the force acting on the car, which begins at rest at time t = 0. The scale on the Fx axis is set by FXs = 4.0 N. In unit-vector notation, what is P→ at (a)t = 2.0 s and (b)t = 8.0 s, (c) what is v→ at t = 8.0 s? Fx(N) (a) Number i^ i j^ k^ Units (b) Number i^ + j^ + k^ Units (c) Number i^ + j^ + k^ Units

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A 3.0 kg toy car can move along an x axis. The figure gives F x of the force acting on the car, which begins at rest at time t = 0 . The scale on the F x axis is set by F X s = 4.0 N . In unit-vector notation, what is P at ( a ) t = 2.0 s and ( b ) t = 8.0 s , ( c ) what is v at t = 8.0 s ?
F x ( N )
(a) Number i ^ i j ^ k ^ Units (b) Number i ^ + + j ^ k ^ Units (c) Number i ^ + i j ^ + i k ^ Units

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