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In physics, there are some natural laws, but many scientific theories. There are also rather interpretations, opinions and

hypotheses on which these theories are based on.

If we leave aside the theories and the various opinions and interpretations as "man's work", then only the laws of nature

will remain. The empirically confirmed and universally valid laws of nature do explain the relationships and

interrelationships of physical phenomena. However, there is a problem: they contain partially natural constants that only

can be determined by measurement. While describing the processes of nature, one will encounter physical constants,

whose values can be measured, but so far no one knows what they are to be attributed to.

The secrets of the universe are thus hidden in the constants of nature. Consequently, many well-known physicists had the

desire to derive the number of fundamental constants from a single constant.

There are over a hundred fundamental constants, but only about two dozen of them are elementary, and the rest can be

derived from them. After the discovery of the global formula I have therefore derived the basic constants of nature,

because it is possible to explain the entire universe with them. The derived constants of nature have been selected after

careful consideration, and as we shall see later, even these fundamental constants of nature are based on a single number,

namely the elementary constant.

Einstein also was dissatisfied with the constants of nature, and he has described it as follows: *"... I cannot compellingly *

For Einstein, the most elementary constants of nature such as the speed of light, gravitational constant and the Planck

quantum of action were not really fundamental, because their value still depends on "conventional" units. Only if it could be

succeed to create one quantity from several constants that is a pure numerical value without unit of measurement, then a

universal constant would exist according to Einstein's view. However the numerical value of this universal, absolute

constant should be determined by the logical basis of the physical theory.

The number in the global formula is the universal elementary constant, and we will gradually learn their special

characteristics in the following chapters.

The below listed nature constants and some important physical quantities have been derived with the global formula. As

we are going to see, all fundamental constants in physics can be attributed to a single number as the elementary constant.

- speed of light

- reduced Planck quantum

- Planck length

- Planck time

- elementary charge

- electron mass

- quantized charge

- quantized mass

- gravitationnel constant

- proton mass

- fine structure constant

- classical electron radius

- acceleration of gravity