SHE Level 1
SCQF Credit Points 20.00
ECTS Credit Points 10.00
Module Code M1H125177
Module Leader n/a
School School of Computing, Engineering and Built Environment
Subject Civil Engineering and Environmental Management
  • A (September start)-B (January start)

Summary of Content

This module is designed to provide a good depth of knowledge in the basic concepts of structural mechanics and dynamics. A general approach is used in order to provide the prior learning necessary to study the more specialised engineering subjects in levels 2 and above. The percentage of Work Based Learning for this module, as represented by the Independent Learning "Activity Type" , is 64%. Work Based Assessment is 20%.


Structural mechanics Resolution of coplanar forces; equilibrium; taking moments about a point; determinate and indeterminate structures; pin-jointed plane frames (joint resolution and method of sections); direct, bending and torsional stress; combined stresses; shear force and bending moment diagrams; elastic limits and plastic failure. Dynamics Kinematics; linear/angular motion; accelerating forces; torque; centrifugal forces, momentum and impulse; simple vibrations.

Learning Outcomes

On succesful completion of this module the students should be able to:Knowledge and Understanding1. Understand the significance of structural integrity and identify the relevant factors such as yielding, buckling, fatigue and natural frequency. (A1, A2)2. Identify statically determinate and indeterminate structures. (A2, B1)Practical Application3.Determine by analysis the forces in statically determinate structural elements including frames using equilibrium theories for coplanar forces. (B2, B5, C1)4. Identify the stresses acting structural elements subject to axial loads and bending moments and compare to stress capacity of various structural materials including elastic limits and plastic failure. (A2, B1, B2, B5, C1)5. Assess the deflections in simply supported beams. (A1, A2, B2)6. Understand the principles of dynamics as kinematics and kinetics. (A2)Generic Cognitive Skills7. Determine the required parameters for simple dynamic systems. (A2, B1)8. Identify vibration in mechanical systems. (A2, B1)Mapped to SDS_GA LTOs: 1.2-1.5, 2.2, 2.3, 4.1, 5.1

Teaching / Learning Strategy

This module includes a variety of teaching and learning methods including lectures, seminars, tutorials and laboratory experiments. A core text book will be used to aid the learning of the subject and to be of use in subjects covered in level 2 and above. Learning and teaching strategies will be developed and implemented, appropriate to students' needs, to enable all students to participate fully in the programme. Work Based Learning that will complement this module will be agreed with each employer and be reflected in the Individual Apprentice Learning Plan for the year.

Indicative Reading

Hulse R & Cain J, Structural Mechanics - Second Edition, Palgrave, 2000 (Essential purchase) Hulse R & Cain J, Structural Mechanics; Worked Examples, Palgrave, 2009 Gordon J E, Structures: Or why do things not fall down, Penguin Science, 1991 Gentle et al., Mechanical Engineering Systems, Butterworth Heinemann, 2001 Johnson A & Sherwin K, Foundations of Mechanical Engineering, Nelson Thones, 2001 Smith P S, Introduction to Structural Mechanics, Palgrave Macmillan, 2001 Bolton W, Mechanical Science - Second Edition, Blackwell Science, 1998

Transferrable Skills

On competing this module the student will have developed skills in: Problem solving. (C4, C5, D1, C4, C5, D1, D2, D4, E1, E7, E8, B11 ) Report writing for laboratory work. (D2, D5) Independant learning (D8) Teamwork when carrying out laboratory work (D7) Sourcing reference material when compiling laboratory report. (D1, D2) Mapped to SDS-GA LTOs: 1.2-1.5, 2.2, 2.3, 4.1, 5.1

Module Structure

Activity Total Hours
Practicals (FT) 12.00
Independent Learning (FT) 122.00
Assessment (FT) 18.00
Seminars (FT) 12.00
Tutorials (FT) 12.00
Lectures (FT) 24.00

Assessment Methods

Component Duration Weighting Threshold Description
Course Work 01 n/a 10.00 35% WBL Excercise (structures)
Course Work 02 n/a 20.00 35% Laboratory Report