...is a free fall paradox,when a rotational free fall in gravity,causes a faster then "g" acceleration,as you can see at : www..physics.brown.edu/physics/demopages/Demo/solids/demos/1q2050.html
Faster than "g" ?
Who is the "donor" ?
Maybe,this universal substratum,including of gravity...the incorporeal,ethereal inertia ,asks some additional work from gravity.
Regardless of manner to explain,or play words,we have a real,unavoidable fact,just around the corner...
Can we use this circumstance?
Maybe,if we remind the Newton's suggestion about PM...
All the Bests! / Alex
...can be expressed also ,by a lab-demo "Falling stick..." at: www.phy.syr.edu/courses/demos/7e.html
Usually,the angle between the two boards of the hinged structure is around 40 degrees.
But,if we try a test with a greater angle(near 170 degrees),maybe we become more inquisitive about a possibility to use this phenomenon.
All the Bests! / Alex
.....at : http://www.tynemouth.frankgillings.com/882.htm can be a more convincing and impressive proof (if you watch the video...),about an interesting effect...maybe useful for the topic of this forum.
All the Bests! / Alex
...if you type "falling chimney" on net,you can get a plenty of information.
The next step can be,to relate the "falling chimney" with an "inverted pendulum"(see on net,also),but not as a pendulum studied in robotics (a limited and controlled swinging),...this time,the pendulum can fall 180* ( a full fall down).
For a physical pendulum,the center of rotation can be somewhere,so that we have a new (and useful for our topic) image:a first class lever ,with two unequal arms,free to manifest a full fall down (180*),due to gravity.
The last step is to play (in some way...),the torque difference on the same side of the pivot.
Why this topic?
Simply,because a pendular fall accelerates more than a vertical free fall.
If we have a difference,it can be a starting point to think about...
All the best! / Alex
Simply,because a pendular fall accelerates more than a vertica