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Distance, Displacement, Speed, Velocity, Acceleration.
Kinematics. Final velocity squared = initial velocity squared + 2(gravitational acceleration)(displacement)
Galileo believed that it was necessary for a scientist to describe how things move (kinematics) before he can explain the causes of motion (dynamics).
D, displacement, X=X0+V0T+0.5AT^2 V, velocity, V=V0+AT A, acceleration
The central idea to the study of kinematics is the motion of points without taking into consideration the causes of motion. It is often referred as the geometry of motion.
displacement
No, kinematics specifically refers to the study of motion. If an object is at rest, there is no motion occurring, and therefore no kinematics.
There Is Approximately 8 different types of kinematics depending on the data present in the library. These are called kinematics types, because the classification is related to the kinematics of the reactions.
Richard John Durley has written: 'Kinematics of machines' -- subject(s): Kinematics of Machinery 'Kinematics of machines' -- subject(s): Accessible book, Kinematics of Machinery
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Yes the equations of Kinematics can be used if accelration varies with time, displacement or even velocity; but remember it's not just plug & chug, you will have to integrate the equations. vdv=ads ds/dt=v dv/dt=a d2s/dt=a
George Leroy Guillet has written: 'Kinematics of machines' -- subject(s): Kinematics of Machinery 'Guillet's kinematics of machines'