The subject of this textbook is mechanical design and analysis. While most people have at least a vague idea of what the word “design” means, in this text we are mainly interested in two definitions [1]:

The goal of the text is to give the reader a set of computational tools to design and analyze mechanisms to achieve specific goals. A mechanism is a collection of links and joints designed in such a way as to create a desired motion output. One link of a mechanism is “grounded,” that is, fixed to some reference frame, and we are commonly interested in finding the motion of the remaining links. Some examples of mechanisms are windshield wiper blades, the crankshaft/connecting rod/piston assembly in a car engine, certain types of hinges, mechanical watches and clocks, etc. Another excellent example of a mechanism, or linkage, is the human body. Each segment of the body can be modeled as a link, and the segments are connected through pin joints (the elbow) or spherical joints (the shoulder). By modeling the body in this way, biomechanical engineers can deduce the forces and moments present at the joints by analyzing the motion of the body with motion capture techniques.

The first section of the book provides an introduction to some fundamental concepts in kinematics, and the student will learn techniques for designing linkages with CAD software, such as SOLIDWORKS^®. Afterwards, we discuss methods for predicting the motion of linkages using computer programs written in MATLAB^®. This is actually a rather difficult task, and will take up most of the text. To begin this task, we will learn how to find the positions traced out by a given linkage. Once we are able to compute positions of linkages, it is a simple matter to compute velocities and accelerations. Accelerations must be calculated to analyze link forces, as well as to keep accelerations within limits that can be tolerated by human beings. Once the motion of a linkage has been determined, the next step is to perform kinetic (dynamic) analysis.

Force analysis is necessary to keep forces (stresses) within acceptab...