Satellite's Tidal Force & Orientation: Can It Affect Interlock?

AI Thread Summary
Telecommunication satellites must maintain a specific orientation to ensure their antennas consistently face the Earth. The discussion explores whether tidal forces from gravity can exert torque on satellites, potentially altering their orientation during orbit without mechanical intervention. It is noted that while tidal forces exist, their impact on satellite orientation is minimal compared to other stabilizing effects. The concept of gravity gradient stabilization is mentioned as a potential method for maintaining orientation. Overall, the tidal force's influence on satellite interlock is deemed negligible.
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some telecomunication satellites in orbits are made to be kept oriented in a certain way where their reception and broadcasting antenna or whatever is called should awalys face the Earth so while orbiting the satellite has to be interlocked with the surface of the earth.
My question is: can the tidal force of gravity due to the shape of the satellite exerce a torque on the latter in a way that changes the orientation of the satellite while orbiting to preserve the interlock of the antenna and the surface of the Earth ? disregarding any mechanical intervention through rocket thrust or anything else ?.
 
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IIRC, it can be done using a long boom. However, small corrections may still be required to suppress 'pendulum' swinging...
 
Thehttp://en.wikipedia.org/wiki/Tidal_force" goes like \frac{l}{R^3} for an object of length 'l' in the radial direction, and a distance R from the center of mass. For something like a satellite, this force would be extremely small, and I would guess entirely negligible in comparison to other effects.

You can easily do the calculation to check.
 
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Gravity gradient stabilisation

http://space.skyrocket.de/doc_sdat/ggse-1.htm

Google found a trove...
 
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Thank you guys.
 

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