IS THIS A REACTIONLESS DRIVE OR A PERPETUAL MOTION MACHINE?

[George1]

THE TEXT BELOW IS NOT A SPAM! THE TEXT BELOW IS AN ATTEMPT TO WAKE UP HUMANS FROM THE MENTAL COMA!
=========================
Asking our simple question for the 45th time.
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1) Consider carefully and thoroughly (and many times!) the link https://www.youtube.com/watch?v=xX14NK8GrDY  .
--------------------------------------------
2) Assume that:
a) Ma = 1 kg;
b) Mb = 4 kg; the value of Mb can be either increased or decreased as many times as you want;
c) V1 = 1m/s = const;
d) Ffr. = force of friction inside the zigzag channels = 0.0000001 N; the latter can be further decreased as many times as you want;   
e) N = number of zigzags = 10; the value of N can be either increased or decreased as many times as you want;
f) Shapes of the zigzags = sinusoids; the latter can be replaced by any other curve patterns.
--------------------------------------------
3) It is evident that (always) V2 > 0 m/s and V3 > 0 m/s.
--------------------------------------------
4) It is evident that if V2 = 0.6 m/s and if V3 = 0.1 m/s, then (a) the law of conservation of linear momentum is valid and (b) the law of conservation of mechanical energy is invalid.
--------------------------------------------
5) It is evident that if V2 = 0.8 m/s and if V3 = 0.3 m/s, then (a) the law of conservation of linear momentum is invalid and (b) the law of conservation of mechanical energy is valid.
--------------------------------------------
6) It is evident that if (a) V2 is not equal to 0.6 m/s, and if (b) V2 is not equal to 0.8 m/s, and if (c) V3 is not equal to 0.1 m/s, and if (d) V3 is not equal to 0.3 m/s, then both (e) the law of conservation of linear momentum and (f) the law of conservation of mechanical energy are invalid simultaneously in this special particular zigzag case, which is described in the link https://www.youtube.com/watch?v=xX14NK8GrDY  .
--------------------------------------------
Asking again our simple question for the 45th time.
--------------------------------------------
QUESTION: Do you have any objections against any of the above items 3-6? Yes or no? (And if yes, then specify exactly which item you do not agree with and why.)
--------------------------------------------
Looking forward to your answer for the 45th time.
========================
NOTE.
It is worth to note a simple interesting experimental fact, which is as follows.
A) A certain number and a certain shape of the zigzags lead to the validity of the above written item 4.
B) Another combination of number and shapes of the zigzags leads to the validity of the above written item 5.
C) And a third combination (and more precisely, a group of combinations) of number and shapes of the zigzags leads to the validity of the above written item 6.
========================
We (our team) are ready to enter a suitable form of collaboration of mutual benefit for further perfection and development of our 11 (eleven) technology breakthroughs and/or for production of our 11 (eleven) technology breakthroughs on a large industrial scale.

[George1]

Still no positive comments? Where is the brave pioneer spirit here in this forum?
========================
Asking our simple question for the 46th time.
--------------------------------------------
1) Consider carefully and thoroughly (and many times!) the link https://www.youtube.com/watch?v=xX14NK8GrDY  .
--------------------------------------------
2) Assume that:
a) Ma = 1 kg;
b) Mb = 4 kg; the value of Mb can be either increased or decreased as many times as you want;
c) V1 = 1m/s = const;
d) Ffr. = force of friction inside the zigzag channels = 0.0000001 N; the latter can be further decreased as many times as you want;   
e) N = number of zigzags = 10; the value of N can be either increased or decreased as many times as you want;
f) Shapes of the zigzags = sinusoids; the latter can be replaced by any other curve patterns.
--------------------------------------------
3) It is evident that (always) V2 > 0 m/s and V3 > 0 m/s.
--------------------------------------------
4) It is evident that if V2 = 0.6 m/s and if V3 = 0.1 m/s, then (a) the law of conservation of linear momentum is valid and (b) the law of conservation of mechanical energy is invalid.
--------------------------------------------
5) It is evident that if V2 = 0.8 m/s and if V3 = 0.3 m/s, then (a) the law of conservation of linear momentum is invalid and (b) the law of conservation of mechanical energy is valid.
--------------------------------------------
6) It is evident that if (a) V2 is not equal to 0.6 m/s, and if (b) V2 is not equal to 0.8 m/s, and if (c) V3 is not equal to 0.1 m/s, and if (d) V3 is not equal to 0.3 m/s, then both (e) the law of conservation of linear momentum and (f) the law of conservation of mechanical energy are invalid simultaneously in this special particular zigzag case, which is described in the link https://www.youtube.com/watch?v=xX14NK8GrDY  .
--------------------------------------------
Asking again our simple question for the 46th time.
--------------------------------------------
QUESTION: Do you have any objections against any of the above items 3-6? Yes or no? (And if yes, then specify exactly which item you do not agree with and why.)
--------------------------------------------
Looking forward to your answer for the 46th time. (Only one word -- either "yes" or "no"!)
========================
NOTE.
It is worth to note a simple interesting experimental fact, which is as follows.
A) A certain number and a certain shape of the zigzags lead to the validity of the above written item 4.
B) Another combination of number and shapes of the zigzags leads to the validity of the above written item 5.
C) And a third combination (and more precisely, a group of combinations) of number and shapes of the zigzags leads to the validity of the above written item 6.
========================
We (our team) are open to any suitable form of collaboration of mutual benefit (a) for a further perfection and development of our 11 (eleven) technology breakthroughs and/or (b) for a production of our 11 (eleven) technology breakthroughs on a large industrial scale.

[George1]

Still no objections? Silence gives consent?
=========================
Asking our simple question for the 47th time.
--------------------------------------------
1) Consider carefully and thoroughly (and many times!) the link https://www.youtube.com/watch?v=xX14NK8GrDY  .
--------------------------------------------
2) Assume that:
a) Ma = 1 kg;
b) Mb = 4 kg; the value of Mb can be either increased or decreased as many times as you want;
c) V1 = 1m/s = const;
d) Ffr. = force of friction inside the zigzag channels = 0.0000001 N; the latter can be further decreased as many times as you want;   
e) N = number of zigzags = 10; the value of N can be either increased or decreased as many times as you want;
f) Shapes of the zigzags = sinusoids; the latter can be replaced by any other curve patterns.
--------------------------------------------
3) It is evident that (always) V2 > 0 m/s and V3 > 0 m/s.
--------------------------------------------
4) It is evident that if V2 = 0.6 m/s and if V3 = 0.1 m/s, then (a) the law of conservation of linear momentum is valid and (b) the law of conservation of mechanical energy is invalid.
--------------------------------------------
5) It is evident that if V2 = 0.8 m/s and if V3 = 0.3 m/s, then (a) the law of conservation of linear momentum is invalid and (b) the law of conservation of mechanical energy is valid.
--------------------------------------------
6) It is evident that if (a) V2 is not equal to 0.6 m/s, and if (b) V2 is not equal to 0.8 m/s, and if (c) V3 is not equal to 0.1 m/s, and if (d) V3 is not equal to 0.3 m/s, then both (e) the law of conservation of linear momentum and (f) the law of conservation of mechanical energy are invalid simultaneously in this special particular zigzag case, which is described in the link https://www.youtube.com/watch?v=xX14NK8GrDY  .
--------------------------------------------
Asking again our simple question for the 47th time.
--------------------------------------------
QUESTION: Do you have any objections against any of the above items 3-6? Yes or no? (And if yes, then specify exactly which item you do not agree with and why.)
--------------------------------------------
Looking forward to your answer for the 47th time. (Only one word -- either "yes" or "no"!)
========================
NOTE.
It is worth to note a simple interesting experimental fact, which is as follows.
A) A certain number and a certain shape of the zigzags lead to the validity of the above written item 4.
B) Another combination of number and shapes of the zigzags leads to the validity of the above written item 5.
C) And a third combination (and more precisely, a group of combinations) of number and shapes of the zigzags leads to the validity of the above written item 6.
========================
We (our team) are open to any suitable form of collaboration of mutual benefit (a) for a further perfection and development of our 11 (eleven) technology breakthroughs and/or (b) for a production of our 11 (eleven) technology breakthroughs on a large industrial scale.

[George1]

To Jerry Volland.
==========================
Where is the scam, you old cheater? Your clumsy manipulations tricks do not work any more! Can't you see this simple obvious fact? Your masters will beat for sure you because you constantly keep failing to manipulate successfully the audience! You are simply an unworthy person! Shame on you!
==========================
I am asking (YOU PERSONALLY!) my simple question for the 48th time.
--------------------------------------------
1) Consider carefully and thoroughly (and many times!) the link https://www.youtube.com/watch?v=xX14NK8GrDY  .
--------------------------------------------
2) Assume that:
a) Ma = 1 kg;
b) Mb = 4 kg; the value of Mb can be either increased or decreased as many times as you want;
c) V1 = 1m/s = const;
d) Ffr. = force of friction inside the zigzag channels = 0.0000001 N; the latter can be further decreased as many times as you want;   
e) N = number of zigzags = 10; the value of N can be either increased or decreased as many times as you want;
f) Shapes of the zigzags = sinusoids; the latter can be replaced by any other curve patterns.
--------------------------------------------
3) It is evident that (always) V2 > 0 m/s and V3 > 0 m/s.
--------------------------------------------
4) It is evident that if V2 = 0.6 m/s and if V3 = 0.1 m/s, then (a) the law of conservation of linear momentum is valid and (b) the law of conservation of mechanical energy is invalid.
--------------------------------------------
5) It is evident that if V2 = 0.8 m/s and if V3 = 0.3 m/s, then (a) the law of conservation of linear momentum is invalid and (b) the law of conservation of mechanical energy is valid.
--------------------------------------------
6) It is evident that if (a) V2 is not equal to 0.6 m/s, and if (b) V2 is not equal to 0.8 m/s, and if (c) V3 is not equal to 0.1 m/s, and if (d) V3 is not equal to 0.3 m/s, then both (e) the law of conservation of linear momentum and (f) the law of conservation of mechanical energy are invalid simultaneously in this special particular zigzag case, which is described in the link https://www.youtube.com/watch?v=xX14NK8GrDY  .
--------------------------------------------
I am asking (YOU PERSONALLY!) my simple question for the 48th time.
--------------------------------------------
QUESTION: Do you have any objections against any of the above items 3-6? Yes or no? (And if yes, then specify exactly which item you do not agree with and why.)
--------------------------------------------
Looking forward to your (PERSONAL!) answer for the 48th time. (Only one word -- either "yes" or "no"!)

[George1]

To Jerry Volland.
==========================
I am asking (YOU PERSONALLY!) my simple question for the 49th time.
--------------------------------------------
1) Consider carefully and thoroughly (and many times!) the link https://www.youtube.com/watch?v=xX14NK8GrDY  .
--------------------------------------------
2) Assume that:
a) Ma = 1 kg;
b) Mb = 4 kg; the value of Mb can be either increased or decreased as many times as you want;
c) V1 = 1m/s = const;
d) Ffr. = force of friction inside the zigzag channels = 0.0000001 N; the latter can be further decreased as many times as you want;   
e) N = number of zigzags = 10; the value of N can be either increased or decreased as many times as you want;
f) Shapes of the zigzags = sinusoids; the latter can be replaced by any other curve patterns.
--------------------------------------------
3) It is evident that (always) V2 > 0 m/s and V3 > 0 m/s.
--------------------------------------------
4) It is evident that if V2 = 0.6 m/s and if V3 = 0.1 m/s, then (a) the law of conservation of linear momentum is valid and (b) the law of conservation of mechanical energy is invalid.
--------------------------------------------
5) It is evident that if V2 = 0.8 m/s and if V3 = 0.3 m/s, then (a) the law of conservation of linear momentum is invalid and (b) the law of conservation of mechanical energy is valid.
--------------------------------------------
6) It is evident that if (a) V2 is not equal to 0.6 m/s, and if (b) V2 is not equal to 0.8 m/s, and if (c) V3 is not equal to 0.1 m/s, and if (d) V3 is not equal to 0.3 m/s, then both (e) the law of conservation of linear momentum and (f) the law of conservation of mechanical energy are invalid simultaneously in this special particular zigzag case, which is described in the link https://www.youtube.com/watch?v=xX14NK8GrDY  .
--------------------------------------------
I am asking (YOU PERSONALLY!) my simple question for the 49th time.
--------------------------------------------
QUESTION: Do you have any objections against any of the above items 3-6? Yes or no? (And if yes, then specify exactly which item you do not agree with and why.)
--------------------------------------------
Looking forward to your (PERSONAL!) answer for the 49th time. (Only one word -- either "yes" or "no"!)