Overview

Mechanical engineering is a field of study that focuses on the design, development, and construction of mechanical systems and devices. This learning path involves learning about the principles of mechanics, materials science, and engineering design, as well as the use of computer-aided design (CAD) software and other technologies to create and test prototypes.

Students in this learning path will learn about topics such as thermodynamics, fluid dynamics, and kinematics, as well as how to apply these concepts to the design and development of mechanical systems, such as engines, machines, and other mechanical devices. They will also learn about manufacturing processes and how to use various tools and equipment to fabricate and test prototypes.

In addition to traditional classroom instruction, students in this learning path may also have the opportunity to participate in hands-on projects and internships, giving them the chance to apply what they have learned in a real-world setting. This learning path is ideal for students who are interested in careers in mechanical engineering or related fields, such as aerospace engineering, automotive engineering, or robotics.

Jobs you expect

There are many different career paths that someone with a degree in mechanical engineering can pursue. Some common jobs in this field include:

  1. Mechanical engineer: Mechanical engineers design, develop, and test mechanical systems, devices, and products. They may work on projects such as designing and building machines, engines, and other mechanical devices, or developing new technologies to improve existing products.
  2. Aerospace engineer: Aerospace engineers work on the design, development, and testing of aircraft and spacecraft. They may be involved in projects such as designing and building new aircraft, or improving the performance and efficiency of existing aircraft.
  3. Automotive engineer: Automotive engineers work on the design and development of vehicles, including cars, trucks, and buses. They may be involved in projects such as designing and building new vehicles, or improving the performance and efficiency of existing vehicles.
  4. Robotics engineer: Robotics engineers design and develop robots and other automated systems. They may be involved in projects such as designing and building new robots, or improving the performance and functionality of existing robots.
  5. Manufacturing engineer: Manufacturing engineers work on the design and development of manufacturing processes, including the use of machines, tools, and equipment to produce products. They may be involved in projects such as improving the efficiency and effectiveness of manufacturing processes, or developing new methods of production.


Universities & Schools

National School of Applied Sciences of Tetouan

National School of Applied Sciences of Tetouan

Engineering
Tetouan, Morocco
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Euro-Mediterranean National Institute of Applied Sciences of Fes

Euro-Mediterranean National Institute of Applied Sciences of Fes

Engineering
Fes, Morocco
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National School of Applied Sciences of Kenitra

National School of Applied Sciences of Kenitra

Engineering
Kenitra, Morocco
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National School of Applied Sciences of Al Hoceima

National School of Applied Sciences of Al Hoceima

Engineering
Hoceima, Morocco
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National School of Applied Sciences of Fes

National School of Applied Sciences of Fes

Engineering
Fes, Morocco
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National School of Applied Sciences of Berrechid

National School of Applied Sciences of Berrechid

Engineering
Berrechid, Morocco
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National School of Applied Sciences of Agadir

National School of Applied Sciences of Agadir

Engineering
Agadir, Morocco
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National School of Applied Sciences of Tangier

National School of Applied Sciences of Tangier

Engineering
Tangier, Morocco
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Certificates

T-SHAPED EXPERT

Mechanical Engineering

Engineering

You made the decision, now it's time to enhance it and gain the depth of knowledge you need to advance.

T-SHAPED EXPERT

Mechanical Engineering

Engineering

You made the decision, now it's time to enhance it and gain the depth of knowledge you need to advance.

Overview

Mechanical engineering is a field of study that focuses on the design, development, and construction of mechanical systems and devices. This learning path involves learning about the principles of mechanics, materials science, and engineering design, as well as the use of computer-aided design (CAD) software and other technologies to create and test prototypes.

Students in this learning path will learn about topics such as thermodynamics, fluid dynamics, and kinematics, as well as how to apply these concepts to the design and development of mechanical systems, such as engines, machines, and other mechanical devices. They will also learn about manufacturing processes and how to use various tools and equipment to fabricate and test prototypes.

In addition to traditional classroom instruction, students in this learning path may also have the opportunity to participate in hands-on projects and internships, giving them the chance to apply what they have learned in a real-world setting. This learning path is ideal for students who are interested in careers in mechanical engineering or related fields, such as aerospace engineering, automotive engineering, or robotics.

Jobs you expect

There are many different career paths that someone with a degree in mechanical engineering can pursue. Some common jobs in this field include:

  1. Mechanical engineer: Mechanical engineers design, develop, and test mechanical systems, devices, and products. They may work on projects such as designing and building machines, engines, and other mechanical devices, or developing new technologies to improve existing products.
  2. Aerospace engineer: Aerospace engineers work on the design, development, and testing of aircraft and spacecraft. They may be involved in projects such as designing and building new aircraft, or improving the performance and efficiency of existing aircraft.
  3. Automotive engineer: Automotive engineers work on the design and development of vehicles, including cars, trucks, and buses. They may be involved in projects such as designing and building new vehicles, or improving the performance and efficiency of existing vehicles.
  4. Robotics engineer: Robotics engineers design and develop robots and other automated systems. They may be involved in projects such as designing and building new robots, or improving the performance and functionality of existing robots.
  5. Manufacturing engineer: Manufacturing engineers work on the design and development of manufacturing processes, including the use of machines, tools, and equipment to produce products. They may be involved in projects such as improving the efficiency and effectiveness of manufacturing processes, or developing new methods of production.


Universities & Schools

National School of Applied Sciences of Tetouan

National School of Applied Sciences of Tetouan

Engineering
Tetouan, Morocco
Visit site
Euro-Mediterranean National Institute of Applied Sciences of Fes

Euro-Mediterranean National Institute of Applied Sciences of Fes

Engineering
Fes, Morocco
Visit site
National School of Applied Sciences of Kenitra

National School of Applied Sciences of Kenitra

Engineering
Kenitra, Morocco
Visit site
National School of Applied Sciences of Al Hoceima

National School of Applied Sciences of Al Hoceima

Engineering
Hoceima, Morocco
Visit site
National School of Applied Sciences of Fes

National School of Applied Sciences of Fes

Engineering
Fes, Morocco
Visit site
National School of Applied Sciences of Berrechid

National School of Applied Sciences of Berrechid

Engineering
Berrechid, Morocco
Visit site
National School of Applied Sciences of Agadir

National School of Applied Sciences of Agadir

Engineering
Agadir, Morocco
Visit site
National School of Applied Sciences of Tangier

National School of Applied Sciences of Tangier

Engineering
Tangier, Morocco
Visit site

Certificates