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The answer is "No". If acceleration changes, forces of inertia should be taken to consideration. It requires dynamic equations of motion. However, if acceleration changes are not significant, you may continue using kinematics. To check if kinematic solution is within required precision limits you need to compare the solution of kinematic and dynamic equations and decide if kinematic solution is good enough.
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
George Leroy Guillet has written: 'Kinematics of machines' -- subject(s): Kinematics of Machinery 'Guillet's kinematics of machines'
There are very many formulae for kinematics, The question needs to be more specific.
What is kinematics
kinematics... apex physical science.
Jorge Angeles has written: 'Rational kinematics' -- subject(s): Kinematics
Robert Kraus has written: 'Grundlagen des systematischen Getriebeaufbaus' -- subject(s): Applied Mechanics, Kinematics of Machinery, Machinery, Kinematics of, Mechanics, Applied 'Getriebelehre' -- subject(s): Applied Mechanics, Kinematics of Machinery, Machinery, Kinematics of, Mechanics, Applied
kinematics
motion