I had to increase the distance to 160 meters instead of 152.4 meters that the 100 kg mass accelerates in , in order to use the 4000N.

we are still using a 500N force I presume.

using only 3 cycles we get

the 1st cycle the pipe moves 16 meters in 8 seconds.
the 2nd cycle the pipe moves 16 meters in 3.31 seconds.
the 3rd cycle the pipe moves 16 meters in 2.54 seconds.

16 * 3 = 48 meters in 13.85 seconds.

the pipe has a final velocity of 6.92 m/s
its mass as you used was 1000 kg

so its braking force is 6928.77N

braking the mass once acceleration is complete should be done
directly after the free float , perhaps the 2nd turnaround can be moved out of the way to allow the mass to be stopped linearly

so the stopping force of 6928.77N applied to stopping the mass will apply to the pipe and will not cause the pipe to slow but to increase velocity.

the pipe only moved 48 meters using a single mass.

but by using more of the accelerator and turnaround systems you can obtain much faster acceleration , and by timing them you can obtain a smoother acceleration that does not jerk back and forth.

but 48 meters distance in 14 seconds with a final velocity of apx 6.92 m/s for eternity as long as you dont run into something isnt bad.












3/4 inch of dust build up on the moon in 4.527 billion years,LOL and QM is fantasy science.