"Aerospace engineering is the primary field of engineering concerned with the development of aircraft and spacecraft."
The design, manufacture, and operation of spacecraft, including rockets, satellites, and space probes.
Mechanics of Flight: This is the study of the forces and motions involved in the movement of an aircraft or spacecraft through the air or space.
Aerodynamics: This is the study of the behavior of fluids (such as air or gases) when they interact with solid objects, such as an aircraft or spacecraft.
Propulsion Systems: This is the study of the design and operation of engines that provide the thrust necessary to propel an aircraft or spacecraft through the air or space.
Electrical and Electronic Systems: This is the study of the design and operation of electrical and electronic systems that control and monitor the various systems of an aircraft or spacecraft.
Structural Engineering: This is the study of the design and construction of the physical structure of an aircraft, including the materials and components used in its construction.
Environmental Control Systems: This is the study of the design and operation of the systems that maintain a comfortable environment within an aircraft or spacecraft, including temperature, pressure, humidity, and ventilation.
Navigation and Guidance Systems: This is the study of the systems and technologies used to navigate an aircraft or spacecraft through the air or space and to guide it to its destination.
Communication Systems: This is the study of the design and operation of the systems that allow communication between the aircraft or spacecraft and ground stations, other aircraft or spacecraft, and other communication systems.
Human Factors: This is the study of the physical and psychological factors that affect the performance and well-being of the people who operate and travel in aircraft or spacecraft.
Safety and Reliability: This is the study of the procedures and technologies used to ensure the safe operation and reliability of aircraft or spacecraft, including risk analysis, error prevention, and fault tolerance.
Aerodynamics Engineering: This branch of spacecraft engineering deals with the study of how air moves around a spacecraft, and how it can be used to control the vehicle's movement.
Propulsion Engineering: This type of engineering deals with the design and development of the engines that propel spacecraft through space.
Materials Engineering: This branch of spacecraft engineering is focused on developing materials that can withstand the harsh environment of space, including extreme temperatures and radiation.
Structural Engineering: This type of engineering focuses on designing and building the physical structure of spacecraft, ensuring that it can handle the stress and strain of space travel.
Electrical Engineering: This branch of spacecraft engineering deals with the design and development of electrical systems, including power generation and transmission, communications systems, and control systems.
Software Engineering: This type of engineering is focused on the design and development of software systems that control spacecraft, from navigation systems to control of mechanical systems.
Systems Engineering: This branch of engineering focuses on the design and development of complex systems, such as spacecraft, and how all the various subsystems must work together to achieve the mission objectives.
Thermal Engineering: This type of engineering is focused on the control of temperatures within the spacecraft, including the development of heat shields and the thermal management of sensitive equipment.
Control Systems Engineering: This branch of spacecraft engineering is focused on the development of automated systems that control the precise movement and orientation of spacecraft.
Navigation Engineering: This type of engineering is focused on the development of systems that allow spacecraft to navigate through space, including the use of GPS and other satellite systems.
"It has two major and overlapping branches: aeronautical engineering and astronautical engineering."
"Avionics engineering is similar, but deals with the electronics side of aerospace engineering."
"'Aeronautical engineering' was the original term for the field."
"As flight technology advanced to include vehicles operating in outer space, the broader term 'aerospace engineering' has come into use."
"Aerospace engineering, particularly the astronautics branch, is often colloquially referred to as 'rocket science'."
"Aeronautical engineering primarily focuses on the development and design of aircraft."
"Astronautical engineering primarily focuses on the development and design of spacecraft."
"Avionics engineering primarily focuses on the electronics systems used in aircraft and spacecraft."
"Aircraft and spacecraft development and design are encompassed by aerospace engineering."
"Aeronautical engineering and astronautical engineering are the main areas of study within aerospace engineering."
"Avionics engineering is a related field and deals with the electronics side of aerospace engineering."
"Astronautical engineering is a key branch of aerospace engineering that specifically focuses on spacecraft development and design."
"Flight technology has advanced to include vehicles operating in outer space."
"The primary focus of aerospace engineering is the development of aircraft and spacecraft."
"Avionics engineering specifically deals with the electronics side of aerospace engineering."
"Aerospace engineering encompasses the development of both aircraft and spacecraft."
"Astronautical engineering, within aerospace engineering, is often colloquially referred to as 'rocket science'."
"The overlapping branches of aerospace engineering are aeronautical engineering and astronautical engineering."
"Aerospace engineering is the primary field of engineering concerned with the development of aircraft and spacecraft."