falling in love again
never wanted to
what am i to do
i cant help it...
(depends how far close to the tip-over point they are set ide imagine)
( , Tue 7 Oct 2008, 0:50, Share, Reply)
never wanted to
what am i to do
i cant help it...
(depends how far close to the tip-over point they are set ide imagine)
( , Tue 7 Oct 2008, 0:50, Share, Reply)
Most probably
Lateral force created by the hammer is a simple f=mv. Downward force is a function of gravity. Reduce the gravity and I'm pretty certain the machines would tip.
Analogously, if these were on the surface of Jupiter I'd imagine they wouldn't even tremble.
( , Fri 10 Oct 2008, 14:20, Share, Reply)
Lateral force created by the hammer is a simple f=mv. Downward force is a function of gravity. Reduce the gravity and I'm pretty certain the machines would tip.
Analogously, if these were on the surface of Jupiter I'd imagine they wouldn't even tremble.
( , Fri 10 Oct 2008, 14:20, Share, Reply)
Another pendant woke up today
Wouldn't even STAND on Jupiter.
timbo (poking his *** with a toothpick)
( , Sun 12 Oct 2008, 13:42, Share, Reply)
Wouldn't even STAND on Jupiter.
timbo (poking his *** with a toothpick)
( , Sun 12 Oct 2008, 13:42, Share, Reply)
but you forget
it's also gravity what accelerates the hammers. If dropped from the same position, they'll hit the board with less momentum.
( , Mon 13 Oct 2008, 3:32, Share, Reply)
it's also gravity what accelerates the hammers. If dropped from the same position, they'll hit the board with less momentum.
( , Mon 13 Oct 2008, 3:32, Share, Reply)
I don't think so.
The gravitational force pulling the hammer down would be weaker, thus the momentum of the hammer would be less on the moon than on earth. As a result, the wood would receive a lower lateral push. The gravity holding the base down would, correspondingly, be weaker, so the wood would move just as far as on earth. It would just take longer.
On jupiter, the gravitational force would be so large that I imagine the wood would split with the vicious thump from the hammer. If the wood was theoretically strong enough, it would move in the same way, only much much faster.
( , Fri 10 Oct 2008, 16:26, Share, Reply)
The gravitational force pulling the hammer down would be weaker, thus the momentum of the hammer would be less on the moon than on earth. As a result, the wood would receive a lower lateral push. The gravity holding the base down would, correspondingly, be weaker, so the wood would move just as far as on earth. It would just take longer.
On jupiter, the gravitational force would be so large that I imagine the wood would split with the vicious thump from the hammer. If the wood was theoretically strong enough, it would move in the same way, only much much faster.
( , Fri 10 Oct 2008, 16:26, Share, Reply)
Yes.
I agree. The only force both trying to upset the equilibrium and keeping it in place is gravity. If perhaps it was a spring pulled back to hit it, then it would probably fall over on the moon.
( , Fri 10 Oct 2008, 22:03, Share, Reply)
I agree. The only force both trying to upset the equilibrium and keeping it in place is gravity. If perhaps it was a spring pulled back to hit it, then it would probably fall over on the moon.
( , Fri 10 Oct 2008, 22:03, Share, Reply)
But......
The wood has a large surface area, and therefore considerable drag through the air, which will limit the amount of forward movement when the hammer hits, the atmosphere is very much thinner on the moon, so the effect of the surface area on the wood will be very minimal, thus it may fall over.
( , Tue 14 Oct 2008, 0:35, Share, Reply)
The wood has a large surface area, and therefore considerable drag through the air, which will limit the amount of forward movement when the hammer hits, the atmosphere is very much thinner on the moon, so the effect of the surface area on the wood will be very minimal, thus it may fall over.
( , Tue 14 Oct 2008, 0:35, Share, Reply)