Engineering has proven to be one
of the most important disciplines in our daily lives over the years as it
represents real solutions to real problems. Theorists think about solutions,
and engineers put these solutions into practice. Engineers are inventors and
also develop their own theory because they are not only dependent on
theoreticians. Let's take a look at 10 best
engineering field for the future and still in demand.
1. Chemical engineering
It is a mechanical engineering
branch that deals with the planning and operation of industrial chemical
production plants. Engineers are also involved in the research and manufacture
of new chemical compounds and mixtures. Modern chemical engineering is currently
a large field, as it finds its way into many industries.
The number of manufacturing and
processing areas in which chemical engineers can work is enormous. These areas
include: medicine / pharmacy and hygiene, oil and gas, sustainable energy, food
processing, preservation, electronics and microelectronics, advanced material
production, polymers, biotechnology, military, aerospace, construction,
automotive, nanotechnology and much more.
2. Civil engineering.
Things change very quickly.
People's needs are changing and more living space is needed as the population
grows. Costs are becoming a major challenge and income gaps are widening. New
ways of housing people are needed. This is partly the responsibility of the
civil engineers.
Civil engineering is not just
about housing and construction problems. It deals with geotechnics, structural
engineering, traffic and roads, environmental solutions, urban planning and
much more.
3. Mechanical engineering.
It is sometimes misunderstood
that machine manufacturers are unusual car mechanics. That is definitely not
true. Mechanical engineers are trained in a multidisciplinary area and often
participate in the design, development and manufacture of sophisticated
machines.
A mechanical engineer can work in
a variety of areas, including aerospace, manufacturing and manufacturing,
automotive, control and instrumentation, nuclear energy, water treatment and
more.
4.Automobil technology
When someone buys a car, they get
a product that has been researched, designed, developed and contributed to the
manufacture of various components of that vehicle. Vehicle engineers also
develop vehicle subsystems and perform tests and problem solving. It has many
more obligations to ensure that the buyer receives a safe and efficient vehicle.
5. Computer technology
Computer engineers always have
the world at hand if they have the right skills and knowledge.
Computer engineers can work on
the design, development and production of hardware and software. You can edit
software development and analysis, business analysis, data scientist, game
development, business consulting, system development, user behavior analysis
and more.
6. Software development
Each machine consists of two main
parts: the hardware, which represents the physical aspect of the machine, and
the software, which represents the set of signals, data and algorithms that
control the interaction between the various components of the machine. Software
is usually connected to computers, but in reality it is connected to everything
that is considered computerized or carries out logical processes.
Computers change very quickly. If
Moore's Law applies, the performance of the computer doubles every 18 months.
That is, the more powerful the computer becomes; Advanced software and
applications are required.
7 Petroleum Engineering
It is part of each phase in the
production of the oil and gas industry. One of the tasks of an oil engineer is
to maximize the extraction and processing of oil, minimize costs and protect
the environment.
An oil engineer can be an oil
geologist, reservoir engineer, production engineer, drilling engineer and
others.
8 Mechatronik
For those of us who don't know
what mechatronics is, it's the design and development of automated machines. It
is the combination of mechanical, electronic and software development
disciplines to create complex machines. It differs from the three interwoven
disciplines in this area and is also very different from automation technology.
Mechatronics engineers are
responsible for developing a deep understanding of these complicated machines
that very few people can.
Mechatronics engineers can work
in the fields of artificial intelligence, aviation, computer technology,
control systems, data communication systems, energy fields, space and
astronautics, modeling and simulation and many other areas.
9. Electrical and electronic
engineering.
If an electronic part is present,
electrical signals are needed to function. The electronics convert analog
signals into digital signals to allow better manipulation and control by
software. These engineers can work anywhere. Areas of activity include:
aerospace, radio, electrical engineering, electronics, computer science,
networks, nuclear technology, satellite communications and more.
10. Telecommunications technology.
When someone uses a mobile device
to make a call or send a text message, the call or text is routed to the
communication towers, possibly to the satellites, or through a massive
underground cable network and reaches the pair of phones on the other side
where they can be, at the speed of light,
Telecommunications engineers are
responsible for most of this data communication process.
Telecommunications engineers can
work in almost any telecommunications-related industry, including aerospace,
aerospace, telecommunications, communications and data analysis, manufacturing,
engineering solutions and more.
The outlook for each area may
vary according to the experience and skills of the individual, and the market
is hungry for experience and highly qualified people.
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