If you mean Terence Witt's Null Physics theory then no reputable scienticst would call it a scientific theory. See this review of "Our Undiscovered Universe" by Terence Witt from a professional physicist:
http://web.mit.edu/~bmonreal/www/Null_Physics_Review.html Also see my review at http://homepages.ihug.co.nz/~fiski/ouu_review.html
The flaws of this crackpot book are many and include:
Redefining the concept of infinity as a length with magnitude.
Defining a line as a series of points written as zeros, treating them as numbers so that they add up to zero and then treating the number zero as a point again!
A really bad atomic model "proving" that a electron orbiting a proton has a ground state that it cannot decay from by creating a new physical law.
Using the high school description of a neutron as a proton plus an electron and not realizing that this is just his atomic model!
Postulating that galaxies have "galactic cores" which are super massive objects that are not quite black holes and not realizing that the centre of the Milky Way is well observed. These recycle stars into hydrogen. Oddly enough astronomers have not noticed dozens of stars vanishing from the galactic centre in the many images that they have taken over the last few decades. Conclusion: Bad mathematics and even worse physics.
Null Physics is not a recognized or established scientific theory in the field of physics. It may refer to a concept or idea that is not widely accepted or studied in the scientific community.
Albert Einstein's theory of relativity, proposed in the early 20th century, was a key contribution that brought about a transition from classical physics to modern physics. This theory revolutionized our understanding of space, time, and gravity, leading to new ways of approaching physical phenomena.
There is not currently a single theory that explains all the laws in physics. The goal of theoretical physics is to develop a unified theory that can combine all the fundamental forces of nature into a single framework, such as the grand unified theory or the theory of everything. However, such a theory has not yet been successfully formulated.
Albert Einstein was awarded the 1921 Nobel Prize in Physics for his discovery of the photoelectric effect, which formed the basis of quantum theory and for his work on the theory of relativity.
The theory of relativity proposed by Albert Einstein brought about a transition from classical physics to modern physics. This theory revolutionized our understanding of space, time, and gravity, leading to significant advancements in fields such as cosmology and particle physics.
The world of physics was revolutionized in 1915 by Albert Einstein with his development of the General Theory of Relativity. This theory redefined our understanding of space, time, and gravity, leading to a new era in physics and significantly impacting our understanding of the universe.
Modern physics!
Yes
Experimental physics. Only with experiments come a theory:)
Theory is used used to craft the null hypothesis, which is either proved or disproved by the research itself
It's the Quantum Theory.
Wesley Emil Brittin has written: 'Statistical physics, weak interactions, field theory' -- subject(s): Field theory (Physics), Statistical physics, Weak interactions (Nuclear physics) 'Air and water pollution' -- subject(s): Air, Congresses, Pollution, Water 'Kinetic theory' -- subject(s): Dynamics, Kinetic theory of gases 'Mathematical methods of theoretical physics' -- subject(s): Mathematical physics 'Statistical physics and solid state physics' -- subject(s): Solids, Statistical physics 'Elementary particles' -- subject(s): Particles (Nuclear physics) 'Lectures in Theoretical Physics'
(1) The Special Theory of Relativity, (2) the General Theory of Relativity, (3) important contributions in Quantum Physics.
Physics Branches: Classical Mechanics Mathematical Physics Classical Electrodynamics Quantum Mechanics Thermodynamics and Statistical Mechanics Condensed Matter Physics Nuclear Physics Quantum Field theory Non-Linear Dynamics Astronomy and Astrophysics General Theory of Relativity and Cosmology
Physics Branches: Classical Mechanics Mathematical Physics Classical Electrodynamics Quantum Mechanics Thermodynamics and Statistical Mechanics Condensed Matter Physics Nuclear Physics Quantum Field theory Non-Linear Dynamics Astronomy and Astrophysics General Theory of Relativity and Cosmology
branches of physics are - Neclear physics Electromagnetism Quantum mechanics Interdisciplinary fields Quantum field theory
Albert Einstein's theory of relativity, proposed in the early 20th century, was a key contribution that brought about a transition from classical physics to modern physics. This theory revolutionized our understanding of space, time, and gravity, leading to new ways of approaching physical phenomena.
The zero theory, or null hypothesis, is the assumption that there is nothing extraordinary in a set of data; this is to contrast to the alternative hypothesis, that there is a certain pattern in the data.