{"id":17893,"date":"2022-12-03T14:53:29","date_gmt":"2022-12-03T19:53:29","guid":{"rendered":"https:\/\/www.purdue.edu\/freeform\/me274\/?page_id=17893"},"modified":"2022-12-03T15:42:17","modified_gmt":"2022-12-03T20:42:17","slug":"zero-velocity-vs-zero-acceleration","status":"publish","type":"page","link":"https:\/\/www.purdue.edu\/freeform\/me274\/course-material\/animations\/zero-velocity-vs-zero-acceleration\/","title":{"rendered":"Zero velocity vs. zero acceleration"},"content":{"rendered":"

QUESTION<\/strong><\/em>:
\nIf the angular velocity of a link in a mechanism is zero, does this imply that the angular acceleration of that link is also zero?<\/p>\n

The short answer to that question is NO. If\u00a0\u03c9(t) represents the angular speed of the link, then the angular speed at some time “t” is the FUNCTION value of \u03c9(t). On the other hand, the angular acceleration\u00a0\u03b1(t) is the TIME DERIVATIVE of \u03c9(t): \u03b1(t) = d\u03c9(t)\/dt. Visually, if you make a plot of \u03c9(t) vs. t, then \u03b1(t) is the SLOPE of the function \u03c9(t). For a general function \u03c9(t), there is no expectation that a zero value for \u03c9(t) will correspond to zero value of \u03b1(t).<\/p>\n

Consider the mechanism shown below, where link AB is rotating in the counter clockwise sense with a constant angular speed of \u03c9AB<\/sub>.<\/p>\n

\"\"<\/p>\n

An animation of this motion is shown below. Plots for the angular velocity and angular acceleration of link BC, \u03c9BC<\/sub><\/span> and \u03b1BC<\/sub><\/span>, are provided in this animation.<\/p>\n

\"\"<\/p>\n

DISCUSSION<\/strong><\/em><\/p>\n