Aerospace Engineering - AE GATE Exam

SPACE DYNAMICS

33 hours

About Course

This course provides a comprehensive understanding of escape velocity, the minimum speed needed for an object to break free from the gravitational pull of a celestial body without further propulsion. Explore the principles, mathematical derivations, and practical applications of escape velocity in space missions and astrophysics.

Fundamental principles of celestial mechanics
Kepler's laws of planetary motion
Newton's law of gravitation and its applications in space
Orbital elements and types of orbits
Techniques for orbital maneuvers and transfers
Perturbation theory and its effects on satellite orbits
Spacecraft attitude dynamics and control
Mission planning, trajectory optimization, and navigation

Course Content

SPACE DYNAMICS
Space Dynamics is a crucial field in aerospace engineering that deals with the motion of celestial bodies and artificial satellites. This course covers the fundamental concepts and advanced topics necessary to understand and analyze the dynamics of objects in space. You will start with the basics of celestial mechanics, including Kepler's laws and Newton's law of gravitation, and then move on to more complex subjects like orbital maneuvers, perturbations, and spacecraft attitude dynamics. The course also includes practical aspects of mission planning, trajectory optimization, and spacecraft navigation. By integrating theoretical knowledge with real-world applications, this course prepares you to tackle challenges in the design and operation of space missions.

ORBITAL MECHANICS
KEPLER’S LAW
ESCAPE VELOCITY

Instructors

Aeroadda

4.4

186 Students

45 Courses

Free

Level Intermediate
Last Updated June 6, 2024

+91 82352 44969

[email protected]

+91 82352 44969

[email protected]

SPACE DYNAMICS

About Course

What Will You Learn?

Material Includes