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Physics help
Well from my knowledge it seems like we have many people on this website who are very knowledgeable.....
in physics we are testing "G', which equals 9.8m/s^2 or 10 rounded up. If any of you could please help me find a way to test this and prove it, it would help me a lot. I just need to make an outline of how to test that it exists...... anyone?
in physics we are testing "G', which equals 9.8m/s^2 or 10 rounded up. If any of you could please help me find a way to test this and prove it, it would help me a lot. I just need to make an outline of how to test that it exists...... anyone?
Comments
Well from my knowledge it seems like we have many people on this website who are very knowledgeable.....
in physics we are testing "G', which equals 9.8m/s^2 or 10 rounded up. If any of you could please help me find a way to test this and prove it, it would help me a lot. I just need to make an outline of how to test that it exists...... anyone?
g is the acceleration of the gravity push towards the earth; hence the m/s^2 (because: distance(t)=m, d(distance)/dt = m/s = velocity, d(distance)^2/dt^2 = d(velocity)/dt = m/s^2)
simply bring 2 objects of different masses and drop them from the same height and not far from each other so they can have approximately the same air resistance. you can see that they'll end up on the floor in the same time. meaning the mass doesn't matter. f (that is force) = m (mass) * a (acceleration). the only thing that is the same for both objects is "a"...... that a is your g.
btw, it's a "g" and not a "G"....... "g" = the Earth gravity, "G" = the general gravitational acceleration formula which depends on the 2 objects and the r (radius) between them.
wow....i can't believe i still remember this from physics 3 yrs ago.
gravity will be equal to 2h/t^2
Just drop an object and time how long it takes to fall (t) from height (h)
gravity will be equal to 2h/t^2
record it with a good camera where you can have a ratio of frames/seconds.
i got the dunce prize and everyone laughed! :-[
glad there are people here who can help you better ;)
[quote author=deaconmark123 link=topic=9866.msg120924#msg120924 date=1287358666]
Well from my knowledge it seems like we have many people on this website who are very knowledgeable.....
in physics we are testing "G', which equals 9.8m/s^2 or 10 rounded up. If any of you could please help me find a way to test this and prove it, it would help me a lot. I just need to make an outline of how to test that it exists...... anyone?
g is the acceleration of the gravity push towards the earth; hence the m/s^2 (because: distance(t)=m, d(distance)/dt = m/s = velocity, d(distance)^2/dt^2 = d(velocity)/dt = m/s^2)
simply bring 2 objects of different masses and drop them from the same height and not far from each other so they can have approximately the same air resistance. you can see that they'll end up on the floor in the same time. meaning the mass doesn't matter. f (that is force) = m (mass) * a (acceleration). the only thing that is the same for both objects is "a"...... that a is your g.
btw, it's a "g" and not a "G"....... "g" = the Earth gravity, "G" = the general gravitational acceleration formula which depends on the 2 objects and the r (radius) between them.
wow....i can't believe i still remember this from physics 3 yrs ago.
Excellent memory Mina!
[quote author=deaconmark123 link=topic=9866.msg120924#msg120924 date=1287358666]
Well from my knowledge it seems like we have many people on this website who are very knowledgeable.....
in physics we are testing "G', which equals 9.8m/s^2 or 10 rounded up. If any of you could please help me find a way to test this and prove it, it would help me a lot. I just need to make an outline of how to test that it exists...... anyone?
g is the acceleration of the gravity push towards the earth; hence the m/s^2 (because: distance(t)=m, d(distance)/dt = m/s = velocity, d(distance)^2/dt^2 = d(velocity)/dt = m/s^2)
simply bring 2 objects of different masses and drop them from the same height and not far from each other so they can have approximately the same air resistance. you can see that they'll end up on the floor in the same time. meaning the mass doesn't matter. f (that is force) = m (mass) * a (acceleration). the only thing that is the same for both objects is "a"...... that a is your g.
btw, it's a "g" and not a "G"....... "g" = the Earth gravity, "G" = the general gravitational acceleration formula which depends on the 2 objects and the r (radius) between them.
wow....i can't believe i still remember this from physics 3 yrs ago.
nice lol