5 edgy Engineering specializations which can transform your career
1. Genetic Engineering
Genetic engineering is the process of modifying genes. It uses techniques to manipulate genes through heredity and reproduction. Genetic engineering has led to famous biomedical innovations such as artificial insemination, in vitro fertilization (e.g., “test-tube” babies), cloning, and gene manipulation.
Check the university of Sydney on the subject which you can check out.
2. Mechatronics Engineering
Mechatronics is a branch of engineering that combines the studies of electronics with mechanical engineering. It involves designing smart machines that analyse the environment and make informed decisions. Interestingly, mechatronics engineers study many different aspects of engineering like computer engineering, telecommunications, system engineering and control engineering, enabling them to show expertise in different specialisations.
To explore degree options in mechatronics engineering, check out courses at RMIT University, Deakin University, Swinburne University of Technology, The university of Newcastle and Auckland University of Technology.
3. Nuclear Engineering
Nuclear engineers work to harness the energy from nuclear reactions. Industries such as aerospace rely heavily on nuclear engineering for the design and analysis of complex systems too large and expensive to be tested. It is concerned with the intersection of nuclear reactions with other sub-atomic processes, based on the principles of nuclear physics. Nuclear Engineering has practical applications in medical imaging, radioactive waste disposal, clean energy etc.
The prefix nano indicates one-billionth of a unit of measurement. Nanoengineering is revolutionising many industries such as information technology, medicine, energy and environmental science.
5. Control engineering (AR and VR engineering)
AR stands for Augmented Reality, while VR stands for Virtual Reality. Both AR and VR are up and coming disciplines of Control Engineering that apply control theory principles to design systems. AR overlays digital content onto the real world while VR creates a simulated environment. Control engineering has applications across all sectors including defence, aerospace, IT, medicine, and transportation among others.