Mechanical Engineering Technology & Industrial Design New York City College of Technology, CUNY M...
Mechanical Engineering Technology & Industrial Design New York City College of Technology, CUNY MECH 2335 Kinematics & Dynamics of Machines Da Proiect: Consider an in-line slider-crank mechanism as shown. The crank is described by the vector R P +ja and the connecting rod length S, where P, Q, and S will correspond to your 8 digits CityTech ID, eg, P # Average of largest three digits of your student ID, Q . (mean + median) of your 8 digits ID, and Sa (mode + mean + median + Range) of your 8 digits ID Find the connecting rod orientation and the sider positionID 2367776 t MU -Use analytical vector method (cross product) for positional analysis. Use analytical dot product method for positional analysis and compare your result with cross product. Use graphical method for positional analysis - Compare between analytical and graphical methods - Calculate the velocity and average velocity of the piston. - Perform parameter studies and generate the figure similar to Figure 3.6 as presented on page 168 of your text book. You need to submit a comprehensive report that includes, not limited to, cover page, table, abstract introduction, theory, methodology, procedure, programming,calculation, data, result, discussion & analysis, conclusion, references, etc. Submit all programming scripts Include all necessary plotting with standard engineering format. Page 1 of 1
Mechanical Engineering Technology & Industrial Design New York City College of Technology, CUNY MECH 2335 Kinematics & Dynamics of Machines Da Proiect: Consider an in-line slider-crank mechanism as shown. The crank is described by the vector R P +ja and the connecting rod length S, where P, Q, and S will correspond to your 8 digits CityTech ID, eg, P # Average of largest three digits of your student ID, Q . (mean + median) of your 8 digits ID, and Sa (mode + mean + median + Range) of your 8 digits ID Find the connecting rod orientation and the sider positionID 2367776 t MU -Use analytical vector method (cross product) for positional analysis. Use analytical dot product method for positional analysis and compare your result with cross product. Use graphical method for positional analysis - Compare between analytical and graphical methods - Calculate the velocity and average velocity of the piston. - Perform parameter studies and generate the figure similar to Figure 3.6 as presented on page 168 of your text book. You need to submit a comprehensive report that includes, not limited to, cover page, table, abstract introduction, theory, methodology, procedure, programming,calculation, data, result, discussion & analysis, conclusion, references, etc. Submit all programming scripts Include all necessary plotting with standard engineering format. Page 1 of 1