Kotur's argument
Here, the root of the problem is this: the experimental results take into consideration of the straight line distances travelled by the particles and this in fact leads to the conflict with the theoretical predictions of the Newton‟s formula. If we consider the total distance travelled by the particle, then there won‟t be any anomaly with the Newton‟s force formula as this work suggests.
Another point is that we have to use the particle‟s velocity but, not the wave velocity in order to find the acceleration of the particle under motion, for more details refer to the work [Ref. 2]
So, the point is this: if we use the correct distance and correct velocity of the particle under motion the Newton‟s force formula will certainly give the correct value for the acceleration‟ of the particle under motion. In the following sections we will see how to find the correct values of the distance and the velocity in order to use with the Newton‟s force formula to get error free results
The importance and the cause of concern
A Kotur points, in order to account for this, it is possible that
"Einstein had invented his concept of „relativistic mass‟; although Einstein‟s concept is wrong, it was addressing the problem in a correct way; due to the unscientific nature of this concept, it has been refined
later on to „relativistic momentum‟ and „relativistic energy‟, which seem more scientific, although these are all mere inventions far away from the reality".
The complete argument is here:
Newton's ’s Force Formula Works Even at Relativistic Velocities
The Formula Works If Applied Correctly!
Bhargava R. Kotur
AdIn SoftLabs, Chittoor, AP, India
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