Starting at t = 0 a net external force in the +x-direction is applied to an object that has mass 2.00 kg. A graph of the force as a function of time is a straight line that passes through the origin and has slope 3.00 N/s. If the object is at rest at t = 0, what is the magnitude of the force when the object has reached a speed of 9.00 m/s?

Starting at t = 0 a net external force in the +x-direction is applied to an object that has mass 2.00 kg. A graph of the force as a function of time is a straight line that passes through the origin and has slope 3.00 N/s. If the object is at rest at t = 0, what is the magnitude of the force when the object has reached a speed of 9.00 m/s?

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Question

Starting at t = 0 a net external force in the +x-direction is
applied to an object that has mass 2.00 kg. A graph of the force as a
function of time is a straight line that passes through the origin and has
slope 3.00 N/s. If the object is at rest at t = 0, what is the magnitude of
the force when the object has reached a speed of 9.00 m/s?

Expert Solution