Physics states acceleration (A) of a body is owing to Mutual Gravitational Force between the Earth (e) and the falling body (B). Therefore, A should be in ratio proportional to MASS of the Earth (ME) x MASS of the falling body (MB) and inversely proportional to square of distance between them. This is as per Newton’s law of Gravitation.
G = M x m / D2 so, A = ME x MB / D2 = Acceleration due to G.
Now, when we take two bodies of different masses as C body, CB having mass 10 and F body, FB having mass 100, then
A a CB x EM /D2 & A a FB x EM / D2
i.e., A a 10M x EM / D2 & A a 100M x EM / D2
As the Earth Mass and distances are common and equal for both bodies CB and FB, therefore acceleration should be proportional to the MASS OF THE FALLING BODY. A a MB. THEREFORE, ACCELERATION SHOULD NOT BE COMMON FOR ALL BODIES BUT IT MUST BE PROPORTIONAL TO MASS OF FALLING BODY. Higher the mass greater the rate of acceleration and vice versa.
However, we observe common acceleration for all bodies on the earth with different masses. WHY SO ?
There is no SCIENTIFIC answer for the puzzle. All scientists from Newton to Einstein have struggled to answer the problem in vain. The Science Magazine RESONANCE in August 1998 states “Since Galileo and his famous Leaning Tower experiment: ALL BODIES FALL WITH THE SAME ACCELERATION WHEN DROPPED. Einstein saw here not just a fact but also a deep PUZZLE. He started thinking about this problem shortly after he completed the special theory of Relativity and continued thinking about it and complex of other problems that grew out of it for about eight years till 1915 in vain.”
Now, we have solved the puzzle on basic of STREPULSION-PHYSICS.
STREPULSION-PHYSICS & MYSTERY OF COMMON ACCELERATION:
The Sun exerts SOLAR REPULSION FORCE (SRF). The Earth exerts Planetary Gravitational Force (PGF).As mass of the Sun is 99.9% of the Solar System, entire space of the system is “charged” with SRF.
SRF COUNTERBALANCES GRAVITATIONAL INTENSITY OF ALL FALLING BODY ON THE EARTH.
So intensity of Gravitational force of falling (B) bodies turned “neutral’ or Zero. Therefore, acceleration is activated ONLY DUE TO EARTH GRAVITATION. The intensity of Earth Gravitation is proportional to its mass, which is COMMON for all falling body.
Therefore, acceleration due to gravity of the falling body is not owing to mutual gravitation between the Earth and Falling body but due to SINGLE FORCE and that is due to EARTH GRAVITATION only. THEREFORE, WE OBSERVE COMMON ACCELERATION FOR ALL BODIES IRRESPECTIVE OF THEIR MASSES.
If the Sun exerted force of Gravitation, then, acceleration should have followed in ratio proportional to mass of falling body. THE COMMON ACCELERATION FOR ALL BODIES PROVES - THE SUN EXERTS SRF.
THE FORMULA OF ACCELERATION DUE TO GRAVITY PROVES THE SUN EXERT FORCE OF REPULSION:
In present Physics, a formula is established based on observational fact of COMMON ACCELERATION of all bodies. This formula is not based on any scientific reasoning nor on any explanation, that how and why it functions. This is A = F / M.
A = acceleration, F = Gravitational force of the falling body M = Mass of the falling body.
In this Formula, Gravitational intensity of falling body (F) is neutralized or cancelled by dividing it by Mass (M) of the falling body. G = M. Therefore, naturally, acceleration is due to Earth Gravitation only. Therefore, acceleration is COMMON for all falling bodies irrespective of their Masses.
In this Formula, FORCE IS DIVIDED BY MASS. WHY ?
This is because F a M and it is counterbalanced by SOLAR REPULSION FORCE. So, value of gravitational intensity of falling body (G) along with value of MASS of the falling body turned to Zero.
Therefore, ultimately ACCELERATION IS OWING TO ONLY EARTH GRAVITATION and it is proportional to the Earth Mass only. This is because SRF NEUTRALIZED GRAVITATIONAL INTENSITY OF FALLING BODY.
Summarily, the Formula of Acceleration A = F / M proves THE SUN EXERTS FORCE OF REPULSION. If the Sun exerted Gravitational force, then the Formula should follow: A = F a M.
Dr. Navinchandra K. Shah
Prof. Padmavati P. Jain