As relay runner A enters the 73-ft-long exchange zone with a speed of 30 ft/s, he begins to slow down. He hands the baton to runner B 2.5 s later as they leave the exchange zone with the same velocity. Determine the uniform acceleration of each of the runners. (You must provide an answer before moving on to the next part.) The uniform acceleration of runner A is – _____ft/s2. The uniform acceleration of runner B is _____ft/s2.
Displacement, Velocity and Acceleration
In classical mechanics, kinematics deals with the motion of a particle. It deals only with the position, velocity, acceleration, and displacement of a particle. It has no concern about the source of motion.
Linear Displacement
The term "displacement" refers to when something shifts away from its original "location," and "linear" refers to a straight line. As a result, “Linear Displacement” can be described as the movement of an object in a straight line along a single axis, for example, from side to side or up and down. Non-contact sensors such as LVDTs and other linear location sensors can calculate linear displacement. Non-contact sensors such as LVDTs and other linear location sensors can calculate linear displacement. Linear displacement is usually measured in millimeters or inches and may be positive or negative.
As relay runner A enters the 73-ft-long exchange zone with a speed of 30 ft/s, he begins to slow down. He hands the baton to runner B 2.5 s later as they leave the exchange zone with the same velocity.
Determine the uniform acceleration of each of the runners. (You must provide an answer before moving on to the next part.)
The uniform acceleration of runner A is – _____ft/s2.
The uniform acceleration of runner B is _____ft/s2.
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