Alien Messages (Posted on 2007-01-23)

	Submitted by Bractals
Rating: 2.8000 (5 votes)
Solution:	(Hide)
Let P and R be the endpoints of a message tube and Q its midpoint. Let O be the planet's center and C the position of the capsule in PR. Let s = |CQ| and r = |CO|. The force Fs on the capsule in the direction CQ is Fs = (s/r)Fr where Fr is the force (due to gravity) on the capsule in the direction CO Fr = GMm/r2 where G is the gravitational constant, M is the mass of the solid sphere with center O and radius r, and m is the mass of the capsule. The mass M is given by M = k(4πr3/3) where k is the density of the planet. The equation of motion for the capsule is -Fs = m d2s/dt2 or -(s/r)Gk(4πr3/3)m/r2 = m d2s/dt2 or d2s/dt2 + Ks = 0 where K = 4πGk/3 a constant. Solving this d.e. gives s = (|PR|/2) cos(t√K) The capsule starts at one endpoint when t√K=0 and reaches the other endpoint when t√K=π. The travel time for the message is π/√K. A constant that is independent of the length |PQ|. Thus, the ratio asked for is 1:1. Note: The travel time for a message on a planet the size of the Earth and the same mass is approximately 42 minutes.

	Subject	Author	Date
	re(3): from general knowledge (spoiler)	Charlie	2007-01-24 16:19:51
	re(2): from general knowledge (spoiler)	Leming	2007-01-24 13:52:05
	re: from general knowledge (spoiler)	Jer	2007-01-24 11:51:48
	from general knowledge (spoiler)	Charlie	2007-01-24 10:20:21