This unit gives an overview of construction materials, their use and management in civil engineering applications. The course focuses on the earthmoving materials, estimating earthwork volume, excavating and lifting equipment and compaction equipment. The lecture provides an explanation of the foundation work, concrete formwork system and concrete and steel construction work. It also covers construction management topics such as planning and scheduling, construction economics and contract construction, construction safety and health and equipment maintenance.

The course is designed to increase student's confidence and ability and to enable them to operate at a good intermediate level. The emphasis is on integrating the four skills, increasing fluency through interactive communicative activities and improving accuracy through grammar focus and error analysis. Attention is also paid to vocabulary building and achieving clear intelligible pronunciation.

Landscaping is the creating of planning the drives, walkways, lawns, shrubs, gardens.etc.so as to emergence the good environment. This Unit gives the principles of how to create the landscaping design that are concerning about the ecology system. It covers site analysis, site design, drainage, their interactions with natural systems; reliance ecology as the foundation for landscape design; the need to involve multiple disciplines in solving complex problems and the idea of functionality for the users. The Main purpose of landscaping is to create a joyful environment round the building and give the occupants a healthy breath, good appearance and natural beauty.

This module provides the problem solving skills of engineering mathematics. Students will learn the solid knowledge of principles, methods, results and clear view of what engineering mathematics is. It covers Complex Analysis such as Complex Numbers and Functions, Complex Differentiation, Complex Integration, Power Series, Taylor Series, Laurent Series, Residue Integration, Conformal Mapping, Complex Analysis and Potential Theory, and Numerics for ODEs and PDEs in Numeric Analysis. These generalize the familiar real functions of calculus.

The main objective of this course is to provide students with firm understanding of the design of reinforced concrete members and structures through a thorough grounding in the basic performance of materials and structural behaviour under loading, Topics covered in this course will include: fundamental behavior of reinforced concrete; basis for design code and specification; flexural analysis and design of beams; shear and diagonal tension in beams; bond, anchorage, and development length; design of short columns; analysis and design of slabs; and design of footings and foundations.