Measuring Acceleration Due to Gravity: Planetary Details

AI Thread Summary
Two experiments to measure acceleration due to gravity can include dropping different masses with a ticker-tape timer and using the energy approach involving potential and kinetic energy on an inclined plane. Resources for planetary data, such as radius and escape velocity, can be found on NASA's Planetary Data System website under "Planet Profiles." The conservation of energy principle can help calculate gravity by equating potential energy at the top of an incline to kinetic energy at the bottom. The discussion also touches on the need for a second experimental method and the importance of understanding friction in these experiments. Overall, the conversation emphasizes practical approaches to measuring gravitational acceleration.
UnD
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Hey i was wondering
i need to perform 2 experients (i can't do the penulum one) using completely different methods to measure the acceleration due to gravity.

I thought of the droping different masses and using the ticky tape timer, ?

Also where will i be able to find these things for the planets in our solar system,
planet radius, acceleration due to gravity at surface, orital radius, orbital period, length of planet, orbital radius of a geostationary satellite and escape velocity.

Thanks
 
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UnD said:
Hey i was wondering
i need to perform 2 experients (i can't do the penulum one) using completely different methods to measure the acceleration due to gravity.
I thought of the droping different masses and using the ticky tape timer, ?
yes, a ticker-tape timer would work fine.

Also where will i be able to find these things for the planets in our solar system,
planet radius, acceleration due to gravity at surface, orital radius, orbital period, length of planet, orbital radius of a geostationary satellite and escape velocity.
Thanks
http://pds.jpl.nasa.gov/planets/welcome.htm
look under "Planet Profiles"
 
Cool. Thanks i need to find another that is different.
Plz help. thanks
 
Consider the energy approach, you know, PE at top = KE at bottom; mgh = (1/2)mv^2 .
 
Last edited:
Whta is the formula for the force of friction of an inclined plane?
 
Hmm, Chi Meson, How will i perform the experiment?
nguyen713, i kind of see what you are getting at, I have forgoten the formula i'll try and look around here.
 
According to the law of conservation of energy, the KE of a low-friction cart at the bottom of the incline is about equal to the PE of the (motionless) cart at the top. speed can be measured, height can be measured, g can be calculated.

I've led you to the door on this one, you have to go in by yourself.
 
Oh k, Cool thanks.
 

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