Master of Professional Engineering with Specialisation in Civil and Structural

University of Tasmania - Hobart Campus

Australia,Tasmania

 0 Shortlist

36 Months

Duration

CAD 40,624/year

Tuition Fee

CAD 0 FREE

Application Fee

Feb 2025

Apply Date

Australia, Tasmania

Type: University

Location Type: Urban

Founded: 1890

Total Students: 41,200 +

Int. Students: 3,845 +

Campus Detail

Main Campus Address

Churchill Ave, Hobart TAS 7005, Australia

Master of Professional Engineering with Specialisation in Civil and Structural

Program Overview

The Master of Professional Engineering (Specialisation) is designed to inspire the next generation of innovative professional engineers. Whether you want to transition into a new specialisation or update your qualification to meet Australian industry requirements, this postgraduate course will provide you with the knowledge and skills to reach your career goals in this evolving industry.

In this practical course, you will put theory into practice in a variety of ways. You will test your skills in hands-on laboratory classes, attend exciting field trips around the state, and hear from industry guest lecturers.

In your final year of study, you will undertake a research project within your chosen specialisation, where you will design, develop, prototype, test, and implement your designs with the support of your peers and individual supervisor. You’ll graduate with job-ready skills and the ability to improve society in areas such as electricity, construction, mechanics, and design.


Specialisation: Civil and Structural
Civil and Structural engineers plan, design, construct and maintain the world we live in, both above and below the ground. Projects include dams, bridges, pipelines, gas and water supply schemes, sewerage systems, roads, airports, and structures across all scales, including commercial and residential buildings. As cities grow, the role of civil and structural engineers becomes even more important as we balance development with sustainability, working to futureproof where we live, both functionally and for the environment