Mechanisms Design MECN 4110

Mechanisms Design MECN 4110 Professor: Dr. Omar E. Meza Castillo omeza@bayamon.inter.edu http://facultad.bayamon.inter.edu/omeza Department of Mechanical Engineering Inter American University of Puerto Rico Bayamon Campus

Tentative Lectures Schedule

One thing you learn in science is that there is no perfect answer, no perfect measure. A. O. Beckman Topic: Acceleration Analysis Fourbar Linkage

Chapters Objectives • Up on completion of this chapter, the student will be able to • Determine Accelerations of links and points on the fourbar mechanism by using graphical and analytical approaches.

7.1 Acceleration

7.1 Acceleration • Acceleration of point P

7.1 Acceleration • Acceleration Difference / Relative Acceleration

7.2 Analytical Acceleration Analysis • Analytical Acceleration Analysis

7.2 Analytical Acceleration Analysis • Acceleration Analysis of Pin-Jointed Fourbar Linkage using Vector Loop Method

7.2 Analytical Acceleration Analysis • Fourbar Pin-Jointed Linkage

7.2 Analytical Acceleration Analysis • Numerical Example

7.2 Analytical Acceleration Analysis • Plot of Output Acceleration versus Input Variable

7.3 Analytical Acceleration Analysis of Fourbar Slider-Crank • Acceleration Analysis of Slider-Crank Linkage using Vector Loop Method

7.4 Coriolis Acceleration

7.5 Analytical Acceleration Analysis of Inverted Slider-Crank • Acceleration Analysis of Inverted Slider-Crank Linkage using Vector Loop Method

7.6 Acceleration of Any Point on a Linkage • Acceleration of point S

7.6 Acceleration of Any Point on a Linkage • Acceleration of point P

7.6 Acceleration of Any Point on a Linkage • Acceleration of point P - Example

7.7 Human Tolerance of Acceleration

7.8 Jerk

Homework6  www.bc.inter.edu/facultad/omeza Omar E. Meza Castillo Ph.D.

Mechanisms Design MECN 4110