Register to reply

Celestial Mechanics

by a.a
Tags: celestial, mechanics
Share this thread:
a.a
#1
May21-08, 02:02 AM
P: 128
The greater the altitude of an Earth satellite, the longer it takes to complete one orbit. Why is it impossible for any vehivle to go aroung Earth in less than 80 minutes?
Phys.Org News Partner Science news on Phys.org
'Smart material' chin strap harvests energy from chewing
King Richard III died painfully on battlefield
Capturing ancient Maya sites from both a rat's and a 'bat's eye view'
mgb_phys
#2
May21-08, 02:18 AM
Sci Advisor
HW Helper
P: 8,953
Is this a homework question?
You have to at least try and answer it, describe what you know and any ideas you have about the solution
Danger
#3
May21-08, 02:21 AM
PF Gold
Danger's Avatar
P: 8,964
It's not impossible, but the energy expenditure would be ridiculous. If you're referring to ballistic orbits, I suspect that it's because an orbital period of less than 80 minutes would put the object inside the atmosphere. (Although, I haven't actually heard of that limit before.)

edit: Sorry, Mgb; didn't mean to step on your toes here. I started this response before seeing yours. It didn't occur to me that it might be a homework problem.

michalll
#4
May21-08, 10:48 AM
P: 44
Celestial Mechanics

Because the centrifugal force would be greater than gravitational, unless you compensate it some other way. Computing this you get the minimal period something about 84 minutes.
a.a
#5
May21-08, 05:57 PM
P: 128
Its not a homework question. It was a question that arose in class and I didnt really understand the explaination and as a result didnt take notes.

Im sorry michalll but i didnt quite get why the centrifugal force would be greater than the gravatational force.
mgb_phys
#6
May21-08, 08:33 PM
Sci Advisor
HW Helper
P: 8,953
Quote Quote by michalll View Post
Because the centrifugal force would be greater than gravitational, unless you compensate it some other way. Computing this you get the minimal period something about 84 minutes.
Surely the definition of an orbit is that centrifugal force equals the gravitational.

If you calculate the height necessary for an 84min orbit and compare it to the height of the atmosphere / density of the atmosphere at that height you will see why a satelite orbiting at that height isn't going to last long.

you could orbit the Earth at sea level if you had an air free pipe to avoid air resistance.


Register to reply

Related Discussions
Celestial Mechanics Advanced Physics Homework 2
Software for celestial mechanics Special & General Relativity 9
Celestial mechanics question Introductory Physics Homework 1
Celestial Mechanics Introductory Physics Homework 21
Celestial mechanics General Physics 2