Satellite Motion: Calculate Speed & Time to Orbit Earth

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Homework Help Overview

The discussion revolves around calculating the speed and time taken for a satellite to orbit the Earth, specifically at a height of 200 km with a given radius of 6570 km. The problem involves concepts from gravitational physics and circular motion.

Discussion Character

  • Exploratory, Mathematical reasoning, Problem interpretation

Approaches and Questions Raised

  • Participants explore the relationship between gravitational force and centripetal force, with one suggesting the use of the formula for velocity. There is a discussion on how to derive the time taken for one complete orbit, with attempts to clarify the distance involved in the calculations.

Discussion Status

Participants are actively engaging with the problem, with some offering guidance on using the circumference of the orbit to find the time. There is a recognition of the need to clarify the distance used in calculations, and alternative methods are suggested without reaching a consensus on the approach.

Contextual Notes

There is a mention of the gravitational constant and Earth's mass, which may imply assumptions about the conditions under which the calculations are being made. Additionally, participants note the importance of distinguishing between radius and circumference in their calculations.

SS2006
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A satellite orbits the Earth at a height of 200 KM in a cirlce of radius 6570 km. Find the speed of the satellite and the time taken tocomplete one revolution. Assume the Earth's mass is 6.0 X 10 exp 24.
(Hint: The gravitation force provides the centripetal force)

i found Velocity using:
v = square root of gravity constant * m central / r

but they want the time, what can i use
thanks
 
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try using d = vt
therefore, t = d/v

you found the velocity, and you have the radius of its circular path.
 
so 6570/7.8
gives 842 seconds i assume? dividign b 60 just gives 14
the answer is 88 minutes
 
The d mentioned by rocketboy is the circumference of the orbit, not the radius of orbit.
 
mezarashi said:
The d mentioned by rocketboy is the circumference of the orbit, not the radius of orbit.
yea, sorry for not making that more clear. The 'd' I mentioned above is the total distance covered by the satellite. So if you have the radius of its circular path, then you need to find the circumference of this circle. This circumference is the distance that the satellite has travelled.

Once you have this distance, you can find the time taken using the equation I mentioned above, which you should know from your basic kinematics lessons.
 
Alternatively you could use G\frac{m_E}{r^2} = \frac{4\pi^2r}{T}
 

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