What if the relationship between mathematical and physical laws is indeed valid?
What if Einstein's thesis is true, that all natural laws can be expressed in mathematical formulas?
Discover how this model of Reciprocal Physics, which we present to you on this website, explores these questions and offers a new perspective on the unity of nature and mathematics.

If Einstein's formula is correct:

 E=mc²

which shows how energy is created from matter, then its reverse variant must also be true:

m=E/c²

which suggests the possibility of matter arising from energy. And when we add another variant, we get the formula:

c=√(E/m)

which clarifies the essence of the speed of light, where the speed "c" (light) depends on the values of "E" (energy) and "m" (matter).
If these relationships are correct, then the Big Bang hypothesis cannot be true.
What if the natural laws are so orderly that they are mathematically derivable from each other?
This question is addressed by the model of physics called RECIPROCAL PHYSICS.
This model not only responds to these questions but also offers a new perspective on understanding the universe. Developed using systemic principle methods, it goes beyond current scientific understanding.
Reciprocal Physics views nature and mathematics as an inseparable whole, where everything is interconnected and derivable. Albert Einstein spent his entire life striving to find this unity in nature.
If modern science builds its models on the assumption that Einstein's theses are incorrect, it should also be possible to create a model that respects these theses, as Albert Einstein predicted.
This model of Reciprocal Physics, which we are presenting to you on this website, forms the basis of a revolutionary approach to understanding nature. It is unfortunate that modern science does not recognize the standard mathematical procedures commonly used around the world or the views that respect these procedures – come and find out why.