CS2001 - Engineering Strength of Materials

Credit points:	03
Year:	2011
Student Contribution Band:	Band 2
Administered by:	School of Engineering

Review of shear force and bending moment diagrams. Force systems. Pure bending of elastic beams; composite beams, unsymmetrical sections. Shearing stresses in beams; shear flow, shear centre. Analysis of plane stress and plane strain; Hookes law, stress transformations, Mohrs circle. Torsion for circular sections. Compound stresses. Bending deflection; double integration, moment area methods. Column behaviour, Euler load, secant formula, short and long columns, slenderness ratio, effective length. Introduction to theories of failure.

Learning Outcomes

• solve problems in solid static analysis for axial, bending, and torsional loadings;
• solve problems in solid static design for simply supported beams and columns subjected to a variety of loadings;
• understand and define the basic concepts, properties and variables in solid static mechanics;
• understand the derivations of the equations and techniques commonly used in engineering statics analysis;
• understand the simplifications and assumptions of the equations and techniques commonly used in engineering statics analysis.

Prerequisites:

EG1001 OR EG1011 OR PH1005

Availabilities
Townsville, Internal, Study Period 1
Census Date 24-Mar-2011
Coordinator:	Assoc. Professor John Ginger
Lecturers:	Assoc. Professor John Ginger, Dr Rabin Tuladhar.
Contact hours:	65 hours - Lectures, tutorials, demonstrations, practicals, site visits and/or seminars. Refer to Subject Outline for details.
Assessment:	end of semester exam (50% - 70%); on-course assessment, some of which may be invigilated (30% - 50%).

Note: Minor variations might occur due to the continuous Subject quality improvement process, and in case of minor variation(s) in assessment details, the Subject Outline represents the latest official information.