Engineering I

Vector calculus: Composition and resolution of forces, torque definition, equivalent force systems. Distributed loads and calculating their consisting. Supports, calculated support forces in statically bodies. Center of gravity, moment of inertia. Complex structures, implementation of the action-reaction post, free-body diagrams. Trusses. Beams cross Loads (N, Q, M), frames, bodies in space. Friction.

Objectives

To enable students to analyze each isostatic entity: given the form can identify the supports and connections between members, and to calculate the forces of supports, the forces of connections and section loads. Note that the above analysis is the necessary first step in any calculation trends (who taught in Engineering II) and in endurance tests.

Prerequisites

No

Syllabus

Vector calculus: Composition and resolution of forces, torque definition, equivalent force systems. Distributed loads and calculating their consisting. Supports, calculated support forces in statically bodies. Center of gravity, moment of inertia. Complex structures, implementation of the action-reaction post, free-body diagrams. Trusses. Beams cross Loads (N, Q, M), frames, bodies in space. Friction.