Did Newton know Quantum Mechanics?

My insight of the day. Quantum Mechanics makes Newton’s Law consistent in its two forms. Otherwise they would be inconsistent. So Newton knew some QMech. He knew 1. F=ma=mdv/dt and 2. F=dp/dt. These two are consistent in a framework where wave-particles are central. Because F=ma corresponds to particles and F=dp/dt corresponds to waves.

I will explain this later.

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A Question a Day (series) Q3

The equation v = a*del_t is sometimes used
to find velocity when acceleration and
time are known. Another form of this
equation is v = v_0 + a*del_t. In this second
form of the equation, the function of the
term v_0 is to:

A. indicate that the equation is valid
only for an object that starts at rest.

B. determine the time at which
velocity is equal to zero.

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A Question a Day (series) Q2

1. A ball is thrown with an initial velocity of 20 m/s at an angle of 30°
above the horizontal. What is the instantaneous vertical velocity of
the ball when it is 5.1 m above the release point? (g = 9.8 m/s^2)

A. 0.2 m/s
B. 6.6 m/s
C. 10 m/s
D. 17 m/s

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This image shows the track charged particles leave in detector of elementary particles. Neutrino is not a charged particle but a neutral one. How do we then detect a neutrino?

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Fundamental things you should know about the neutrinos — and other things no-one told ya’.

This article written originally September 2011; describes the link between how physical principles such as that of particle properties explains the formation of life.

—— (basically little facts and some insights, that I had had years ago)

There is a very simple relation between how the Particle Mechanics defined from particle’s available energy and energy channels, can get these particles interlocked, into state of matter which would sustain life. Else the particles were already effervescent and subjected to decay, but since the energy utilities were of very widely different conditions, some of it just meant; life was possible.

eg the particles are stable because they were produced in very high energy blasts, then they could survive for billions of years, and given that there are a very few out of 100s of possible particles, whose energy match like that of husband and wife, they can stay together and form more and more complex building blocks of life.

eg the neutrons and protons can have very different amount of energy in general, but once inside nucleus they can form intimate bonds, because their energy matches … as their constituents, the u and d quark, are accidentally near each others mass, all other constituents have widely varying mass.

For marriage of particles they must be equally “fatso” !

This neutrino guy has widely varying lifetime to mass ratio. Since mass is energy, I realized lifetimes are widely varying because the neutrinos are produced on earth or on sun or in a supernovae?

Since neutrino is linked to nucleons via beta decay that leads me to think the role of neutron and proton and it can be seen that they convert into each other and this way humor themselves for billions of years inside the same studio apartment called nucleus, so that eventually the little chance that life could form, blossoms.

read more Fundamental things you should know about the neutrinos — and other things no-one told ya’.