Fortune Telling Collection - Zodiac Analysis - What does e=mc2 mean as love?

What does e=mc2 mean as love?

The great formula E=mc2 invented by Einstein can also be used to explain the phenomenon of love, E = energy (love energy), m = self (party), and c may be: a, commitment: love energy depends on the degree of regretless commitment; B. Conditions: Love energy will be adjusted according to different situations; C, charm: the energy of love lies in the level of personal charm; D. Opportunity: As long as there is an opportunity, love energy can be detonated by many objects.

This equation originated from Albert Einstein's research on the relationship between the inertia of an object and its own energy. The famous conclusion of this study is that the mass of an object is actually a measure of its own energy. In order to understand the importance of this relationship, we can compare electromagnetic force with gravity. According to the theory of electromagnetism, energy is contained in fields (electric field and magnetic field) related to force but not to charge.

Brief introduction of mass-energy equation

Mass-energy equation E=mc? E stands for energy, m stands for mass, and c stands for the speed of light (constant, c=299792.458km/s). Proposed by Albert Einstein. This equation is mainly used to explain the mass defect in nuclear transformation reaction and to calculate the energy of particles in high energy physics. This also led to the birth of de Broglie wave and wave mechanics.

Mass-energy equation is an equation describing the equivalent relationship between mass and energy. In classical physics, mass and energy are two completely different concepts, and there is no definite equivalent relationship between them. Objects of a certain mass can have different energies. The concept of energy is also limited, and there are kinetic energy and potential energy in mechanics.

In the special theory of relativity, the concept of energy has been generalized, and there is a definite equivalence relationship between mass and energy. If the mass of the object is m, the corresponding energy is E=mc? .