Quote:
Do you agree with the results of my program?
It shows the pipe never moves further than its own length.
Look at the numbers, do you agree with them too?
When you do, we can go to 20 masses.


Do you agree with the results of my program?
I havent used your program below is all I have seen.
It shows the pipe never moves further than its own length.
how far did it move?
Look at the numbers, do you agree with them too?
yes I can agree with them if they are before the 1st turn.
When you do, we can go to 20 masses.
then lets go to 20 masses!

also I changed the pipe lenght to 400 meters.
400 m / 20 = 20 meters

I changed the pipe lenght to 400 meters so the acceleration of each of the 20 masses will be 2 m/s/s
http://tutor4physics.com/motion1d.htm

so

F=ma

10 N = 5kg x 2 m/s/s

remember there is a total of 42 masses

each mass has its own pipe and its own 2 turns.

change the mass of the mass to 5 kg each.


a force of 10 N is required to accelerate a 5 kg mass to 40 m/s/s over a distance of 400 meters.

5kg x 40 m/s/s = 200 N is the force the pipe will feel as the mass passes through the turns.

10 N x 20 masses = +200 N force applied to the pipe in the (+) direction.

so there will be a constant force of +200 N causing the pipe to move in the (+) direction.

can you agree with the above?


--------- this is the constant force that the pipe feels as the 2 masses pass through the 2 turns simultaneously.------

there is 1 mass in each turn.


so below are the calculations of the force that the pipe
would feel as the 2 masses pass through the 2 turns.

------------------- the single mass that passes through the 1st turn

5kg x -40 m/s = -200 N


------------------- the single mass that passes through the 2nd turn at the same time

5kg x +40 m/s = +200 N

because the two masses passing through the 2 turns have the same velocity only different directions and would apply the same force to the 2 turns at the same time , the pipe would not be affected by the masses passing through them as far as pipe speed is concerned.

by launching the masses toward turn 1 and 2 at the same time with the same force the 2 launched masses will reach the opposing turns simultaneously.

they will apply the same force to the pipe only in different directions.

the launching and acceleration of the 2 masses in opposite directions will apply the same force in opposite directions to the pipe.

the 2 accelerating masses as described above would not cause the pipe to move yet.

so far we have launched 2 masses that are in opposing directions.

result = zero movement.

and we have passed 2 of the 5 kg masses through their respective opposing turns.

this did not cause the pipe to move either.

can you agree with the above?



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