๐Ÿ“š

ย >ย 

โš™๏ธย 

ย >ย 

๐Ÿช

7.2 Orbits of Planets and Satellites

4 min readโ€ขjune 18, 2024

Riya Patel

Riya Patel


AP Physics C: Mechanicsย โš™๏ธ

68ย resources
See Units

Introduction

The study of celestial mechanics deals with the motion of celestial objects, such as planets, moons, and satellites, under the influence of gravitational forces. One of the most fundamental principles in celestial mechanics is the law of gravitation, which states that any two objects in the universe attract each other with a force that is proportional to the product of their masses and inversely proportional to the square of the distance between them.

The orbits of planets and satellites are a result of the interplay between gravitational forces and the initial conditions of their motion. In this article, we will discuss the different types of orbits that can exist and how they are influenced by various factors.

Circular Orbits

A circular orbit is an orbit where the object moves around another object in a circular path. In this type of orbit, the gravitational force acting on the object is always perpendicular to the direction of motion, which means that the speed of the object remains constant. The radius of the circular orbit is determined by the mass of the two objects and the strength of the gravitational force between them.

Elliptical Orbits

An elliptical orbit is an orbit where the object moves around another object in an elliptical path. In this type of orbit, the gravitational force acting on the object is not always perpendicular to the direction of motion, which means that the speed of the object varies as it moves around its orbit. The shape of the elliptical orbit is determined by the mass of the two objects and the strength of the gravitational force between them.

Kepler's Laws

The orbits of planets and satellites are governed by Kepler's laws, which were first derived by Johannes Kepler in the early 17th century. Kepler's laws describe the motion of objects in orbit around a central body.

Kepler's first law states that the orbit of each planet around the sun is an ellipse with the sun at one of the two foci of the ellipse.

Kepler's second law, also known as the law of equal areas, states that a line joining a planet and the sun sweeps out equal areas in equal times.

Kepler's third law, also known as the law of harmonies, states that the square of the orbital period of a planet is proportional to the cube of the semi-major axis of its orbit. This law allows us to determine the orbital period of a planet or satellite given its distance from the central body.

Gravity Assists

In addition to the gravitational forces acting between celestial objects, the motion of a planet or satellite can also be influenced by gravitational forces from other objects. This phenomenon is known as a gravity assist.

A gravity assist occurs when a spacecraft approaches a planet or moon and is deflected by its gravitational field, gaining or losing velocity in the process. Gravity assists are commonly used by spacecraft to increase their speed or change their trajectory, allowing them to explore other planets or reach destinations that would otherwise be impossible to reach.

Factors Affecting Orbits

The orbits of planets and satellites are influenced by various factors, including the mass and distance of the two objects, the velocity and direction of their initial motion, and any external forces acting on the system.

For example, if a planet or satellite is moving too slowly relative to the gravitational force acting on it, it may not have enough velocity to maintain a stable orbit and will eventually fall back towards the central body. On the other hand, if the object is moving too quickly, it may escape the gravitational pull altogether and move off into space.

The distance between the two objects also plays a crucial role in determining the shape of the orbit. For example, if a planet or satellite is very close to the central body, its orbit may be highly elliptical, while if it is further away, its orbit may be more circular.

Similarly, external forces, such as the gravitational pull of other nearby objects, can also affect the motion of planets and satellites, causing them to deviate from their predicted orbits.

Geostationary Orbits

One special type of orbit that is commonly used for communication and weather satellites is the geostationary orbit. A geostationary orbit is a circular orbit located directly above the equator of the central body, where the orbital period of the satellite is equal to the rotation period of the central body.

This means that the satellite appears to remain stationary in the sky relative to an observer on the surface of the central body, making it ideal for applications that require a constant connection, such as television broadcasting or weather monitoring.

Conclusion

The study of celestial mechanics and the orbits of planets and satellites is a fascinating field that has played a crucial role in our understanding of the universe. By examining the various factors that influence the motion of celestial objects, we can gain a deeper insight into the fundamental principles that govern the behavior of our solar system and beyond.

Questions for Review

  • What is the law of gravitation and how does it influence the orbits of celestial objects?
  • What are the differences between circular and elliptical orbits, and what factors determine the shape of an orbit?
  • Describe Kepler's laws and how they help us understand the motion of objects in orbit around a central body.
  • How can the motion of a planet or satellite be influenced by gravitational forces from other objects, and what is a gravity assist?
  • What is a geostationary orbit, and why is it useful for communication and weather satellites?
Browse Study Guides By Unit
๐Ÿš—Unit 1 โ€“ Kinematics
๐Ÿš€Unit 2 โ€“ Newtonโ€™s Laws of Motion
๐ŸŽขUnit 3 โ€“ Work, Energy, & Power
๐ŸŽณUnit 4 โ€“ Systems of Particles & Linear Momentum
๐ŸšฒUnit 5 โ€“ Rotation
๐ŸŒŠUnit 6 โ€“ Oscillations
๐ŸชUnit 7 โ€“ Gravitation
๐Ÿ“šStudy Tools

Fiveable
Fiveable
Home
Stay Connected

ยฉ 2024 Fiveable Inc. All rights reserved.


ยฉ 2024 Fiveable Inc. All rights reserved.