About satellites, velocity, gravitation

In summary, when we increase a satellite's velocity, it will have a lower speed as it gets further from earth due to Kepler's law and conservation of angular momentum. This may seem contradictory to the observation that an object fired from earth has a lower velocity at greater distances, but this is due to the difference in the objects' trajectories and the effects of gravity. To fully understand this concept, it is important to consider the expelled fuel from the rocket engine as well.
  • #1
ay2k
29
0
A satellite is in a particular orbit. Too put it in a higher orbit(greater distance from earth), we increase its velocity. I suppose this statement is correct.

But when we fire an object from earth, its velocity is lesser for greater distances from earth.


Can anyone please simplify this apparent contradiction.

Any link would be highly appreciated.
 
Physics news on Phys.org
  • #2
excuse me...
i need an urgent reply...
 
  • #3
Hi ay2k! :smile:

But when we increase a satellite's velocity, its velocity will be less as it gets further from earth.
 
  • #4
please elaborate...
 
  • #5
ay2k said:
please elaborate...

It sweeps out equal areas in equal times (one of Kepler's laws), so when it's nearer the planet, it goes faster, and when it's further, it goes slower. :smile:
 
  • #6
ay2k said:
But when we fire an object from earth, its velocity is lesser for greater distances from earth.

This doesn't necessarily have a direct correlation to an orbiting satellite. Nor would this be true in general. If you were to throw a baseball straight up, then yes the velocity will decrease as the baseball gets further away from you.

Now throw the baseball straight ahead. It will eventually hit the ground. Throw it a bit harder now. It will take longer for it to hit the ground. Now throw it REALLY hard. If you're good it might just hit you in the back of the head.

Now try the same experiment on a really high mountain. Now you won't have to throw as hard. Thus we have confirmed tiny-tim's assertion...
 
  • #7
The velocity is increased while the satellite is in a lower orbital path, but the end result is the satellite ends up in a higher orbital path, but at a lower speed, once it stabilizes into it's new orbital path. Assuming the path isn't intended to be elliptical, it takes two bursts of thrust; the inital burst to get it into a higher on average orbit, and a second burst to get the orbit to be circular.
 
  • #8
The whole prinicple of higher orbit - slower speed has to do with the law of conservation of angular momentum. The momentum has to stay constant (p= mvr), with r the distance between the satelite and the earth, which means if r increases v has to decrease and visa versa.
 
  • #9
The centripetal force (gravitational attraction of Earth in this case) also decreases as well the farther you get away from the center of the Earth.
 
  • #10
Nerd said:
The whole prinicple of higher orbit - slower speed has to do with the law of conservation of angular momentum. The momentum has to stay constant (p= mvr), with r the distance between the satelite and the earth, which means if r increases v has to decrease and visa versa.
In order for this to be a closed system, and for angular momentum to be conserved, the velocity and mass of the spent fuel expelled from the rocket engine that propels the satellite into orbit needs to be included. If the expelled fuel is ignored, and only the satellites movement considered, then angular momentum will not appear to be preserved.
 

What is a satellite?

A satellite is an object that orbits around a larger object in space. It can be natural, like the moon, or human-made, like a spacecraft.

How fast do satellites travel?

The speed of a satellite depends on its altitude and the gravitational pull of the object it is orbiting. Most satellites in low Earth orbit travel at speeds of around 17,500 miles per hour.

What keeps a satellite in orbit?

A satellite stays in orbit because of the balance between its velocity and the gravitational pull of the object it is orbiting. The satellite's velocity allows it to continuously fall towards the object, while the gravitational pull keeps it from flying off into space.

Can satellites change their velocity?

Yes, satellites can change their velocity through the use of thrusters or other propulsion systems. This allows them to adjust their orbit or perform maneuvers, such as docking with other spacecraft.

How does gravitation affect satellites?

Gravitation is the force that keeps satellites in orbit around an object. The strength of the gravitational pull depends on the mass of the object and the distance between the object and the satellite. The larger the mass and the closer the distance, the stronger the gravitational force will be.

Similar threads

Constant velocity in a central force field
    • Mechanics
Replies
18
Views
1K
Accelerating a satellite in a circular orbit
    • Mechanics
Replies
24
Views
2K
I Can a Satellite Maintain its Angular Velocity with Continuous Low Thrust?
    • Astronomy and Astrophysics
Replies
2
Views
1K
Change in mechanical energy (gravitation)
    • Mechanics
Replies
2
Views
1K
Calculation of orbital velocity -- Geometrical solution
    • Mechanics
Replies
14
Views
1K
Expressing Elliptic Orbitals As Speed Functions.
    • Mechanics
Replies
2
Views
836
What happens when the velocity of a revolving satellite/body changes?
    • Mechanics
Replies
7
Views
6K
When would a rocket return that was at escape velocity
    • Mechanics
Replies
13
Views
8K
Conservative forces, Nonconservative forces and Potential Energy
    • Mechanics
Replies
9
Views
2K
Can Sci-Fi Spacecraft Achieve Stable Orbit with Plasma Technology?
    • Mechanics
Replies
4
Views
892

Hot Threads

Recent Insights

Back
Top