Latest work from Fundamental Harmonics on Lepton Quark.
The French mathematician Lazare Carnot proposed in his 1803 paper "Fundamental Principles of Equilibrium and Movement" that in any machine the accelerations and shocks of the moving parts represent losses of moment of activity.
In any natural process there exists an inherent tendency towards the dissipation of useful energy.
The workings of our entire planet, including all the processes of life, ride on a wave of increasing entropy.
All life on Earth relies on the energy we get from the sun. Sunlight is made up of concentrated, low-entropy parcels of energy. Our planet chews up this useful energy, uses it for its inner workings, and spits out the remainder as heat, a more spread out (and therefore higher-entropy) form of energy.
The French mathematician Lazare Carnot proposed in his 1803 paper "Fundamental Principles of Equilibrium and Movement" that in any machine the accelerations and shocks of the moving parts represent losses of moment of activity.
In any natural process there exists an inherent tendency towards the dissipation of useful energy.
The workings of our entire planet, including all the processes of life, ride on a wave of increasing entropy.
All life on Earth relies on the energy we get from the sun. Sunlight is made up of concentrated, low-entropy parcels of energy. Our planet chews up this useful energy, uses it for its inner workings, and spits out the remainder as heat, a more spread out (and therefore higher-entropy) form of energy.
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