.....alike a roller-coaster , as a concept , at :
https://grabcad.com/library/see-saw-rol ... er-concept
It's a pair of double inverted pendulums , with a common fulcrum...
Al_ex
Play seesaw...
Moderator: scott
-
- Addict
- Posts: 2421
- Joined: Mon Nov 20, 2006 1:37 am
- Location: costa mesa /CA/US
- Contact:
re: Play seesaw...
Simplicity is the first step to knowledge.
-
- Addict
- Posts: 2421
- Joined: Mon Nov 20, 2006 1:37 am
- Location: costa mesa /CA/US
- Contact:
re: Play seesaw...
.....as a " Ball Machine " , at : https://youtu.be/uhp5lqKLD2g
intended to play an alternating continuous motion , due to a variable gravity unbalance of a lever.
Al_ex
intended to play an alternating continuous motion , due to a variable gravity unbalance of a lever.
Al_ex
Simplicity is the first step to knowledge.
Brings to question?
What is the distance a two weights have to travel, to make a seesaw move?
How much greater is the distance of travel up and down, compared to back and forth?
Could a series of seesaws, with a slight movement back and forth, pump a wheel?
Could a portion of the distance up and down, be used to shift weights back and forth?
How much of the torque dropping does it take, to shift the weights on the previous lever dropped?
What is the time frame previous lever has to lift, to be next in line to drop?
What is the distance a two weights have to travel, to make a seesaw move?
How much greater is the distance of travel up and down, compared to back and forth?
Could a series of seesaws, with a slight movement back and forth, pump a wheel?
Could a portion of the distance up and down, be used to shift weights back and forth?
How much of the torque dropping does it take, to shift the weights on the previous lever dropped?
What is the time frame previous lever has to lift, to be next in line to drop?
re: Play seesaw...
Have you seen a little document called Machinen Tractate?Brings to question?
What is the distance a two weights have to travel, to make a seesaw move?
How much greater is the distance of travel up and down, compared to back and forth?
Could a series of seesaws, with a slight movement back and forth, pump a wheel?
Could a portion of the distance up and down, be used to shift weights back and forth?
How much of the torque dropping does it take, to shift the weights on the previous lever dropped?
What is the time frame previous lever has to lift, to be next in line to drop?
No this is nothing like what I am talking about, more like the old Chinese mill, where a series of arms are lifted by a water wheel, but the other way around! The arms turn he wheel.
https://en.m.wikipedia.org/wiki/Trip_ha ... ammers.jpg
https://en.m.wikipedia.org/wiki/Trip_ha ... ammers.jpg
-
- Addict
- Posts: 2078
- Joined: Tue Dec 30, 2008 5:21 pm
re: Play seesaw...
Bessler's wheel worked even when it wasn't connected to the stompers.
. I can assure the reader that there is something special behind the stork's bills.
re: Play seesaw...
@Fcdriver
I am looking at this area myself.
So as you are asking the same questions.
I have hit your greenie.
Regards
I am looking at this area myself.
So as you are asking the same questions.
I have hit your greenie.
Regards
Gravity is acceleration, you cannot control acceleration by attaching weight to a wheel, they have to be intependent of the wheel, where the torque produced by a dropping weight, slowly lifts, at a much slower acceleration.
F=MA
If mass is the same acceleration is the only change!
Using 180 degrees to lift and then drop 180 degrees by putting weights on a wheel is not possible! You have to slow acceleration by more than 1/5 th, and only drop a weight that does accelerate the wheel.
Most efficient lift vs most efficient drop!
Slowing acceleration of lift reduces the force of lift, drop has a set acceleration.
F=MA
If mass is the same acceleration is the only change!
Using 180 degrees to lift and then drop 180 degrees by putting weights on a wheel is not possible! You have to slow acceleration by more than 1/5 th, and only drop a weight that does accelerate the wheel.
Most efficient lift vs most efficient drop!
Slowing acceleration of lift reduces the force of lift, drop has a set acceleration.