Why E Is Not Equal to mc2

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Journal of Modern Physics

ISSN Print: 2153-1196
ISSN Online: 2153-120X
www.scirp.org/journal/jmp
E-mail: jmp@scirp.org

Google-based Impact Factor: 0.86
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"Why E Is Not Equal to mc²"
written by M. S. El Naschie,
published by Journal of Modern Physics, Vol.5 No.9, 2014

has been cited by the following article(s):

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CrossRef

[1]	Massive Gravity from a Fractal-Cantorian Spacetime Perspective
	2020

[2]	Fluid Turbulence Road to Quantum Cantorian Spacetime Via Nested Solitonic Golden Eddies Chaos Implied by Batchelor's Law-A Possible Rationale for the …
	2020

[3]	NASA's EM Drive Thrust from the Forces of the Quantum Vacuum of Spacetime
	2018

[4]	From Nikolay Umov E= kmc2 via Albert Einstein's E= γmc2 to the Dark Energy Density of the Cosmos E=(21/22) mc2
	2018

[5]	Density of the Cosmos () E mc 2 21 22=
	2018

[6]	El Naschie,“From Nikolay Umov= 2 E kmc via Albert Einstein's γ= 2 E mc to the dark energy density of the cosmos()= 2 21 22 E mc.”
	2018

[7]	From Nikolay Umov E=kmc2 via Albert Einstein's E=γmc2 to the Dark Energy Density of the Cosmos E=(21/22)mc2
	2018

[8]	The Physics, Mathematics and Common Sense of Cosmic Dark Energy and Spacetime Extra Dimensions
	2017

[9]	Computational Fractal Logic for Quantum Physics and Cosmology
	2016

[10]	The Speed of the Passing of Time as Yet Another Facet of Cosmic Dark Energy
	2016

[11]	Completing Einstein's Spacetime
	2016

[12]	Cantorian-Fractal Kinetic Energy and Potential Energy as the Ordinary and Dark Energy Density of the Cosmos Respectively
	2016

[13]	Kähler Dark Matter, Dark Energy Cosmic Density and Their Coupling
	2016

[14]	Quantum Disentanglement as the Physics behind Dark Energy
	2016

[15]	Einstein's Dark Energy via Similarity Equivalence,'tHooft Dimensional Regularization and Lie Symmetry Groups
	2016

[16]	High Energy Physics and Cosmology as Computation
	2016

[17]	The Emergence of Spacetime from the Quantum in Three Steps
	2016

[18]	Max Planck Half Quanta as a Natural Explanation for Ordinary and Dark Energy of the Cosmos
	2016

[19]	Hubble Scale Dark Energy Meets Nano Scale Casimir Energy and the Rational of Their T-Duality and Mirror Symmetry Equivalence
	World Journal of Nano Science and Engineering, 2015

[20]	Quantum Fractals and the Casimir-Dark Energy Duality—The Road to a Clean Quantum Energy Nano Reactor
	Journal of Modern Physics, 2015

[21]	A Resolution of the Black Hole Information Paradox via Transfinite Set Theory
	World Journal of Condensed Matter Physics, 2015

[22]	Application of Dvoretzky's theorem of measure concentration in physics and cosmology
	2015

[23]	On El Naschie's fractal-cantorian space-time and dark energy—A tutorial review
	2015

[24]	From Kantian-Reinen Vernunft to the Real Dark Energy Density of the Cosmos via the Measure Concentration of Convex Geometry in Quasi Banach Spacetime
	2015

[25]	From Kantian-Reinen Fernunft to the Real Dark Energy Density of the Cosmos via the Measure Concentration of Convex Geometry in Quasi Banach …
	2015

[26]	From Kantian-Reinen Fernunft to the Real Dark Energy Density of the Cosmos via the Measure Concentration of Convex Geometry in Quasi Banach …
	2015

[27]	A Complementarity Resolution of the Black Hole Information Paradox
	2015

[28]	The Hidden Quantum Entanglement Roots of E= mc2 and Its Genesis to E= mc2/22 plus mc2 (21/22) Confirming Einstein's Mass-Energy Formula
	2014

[29]	Naschie: From E= mc2 to E= mc2/22—A Short Account of the Most Famous Equation in Physics and Its Hidden Quantum Entanglement Origin
	2014

[30]	Entanglement of E8E8 Exceptional Lie Symmetry Group Dark Energy, Einstein's Maximal Total Energy and the Hartle-Hawking No Boundary Proposal as the …
	2014

[31]	Deriving E= mc2/22 of Einstein's ordinary quantum relativity energy density from the Lie symmetry group SO (10) of grand unification of all fundamental forces …
	2014

[32]	From E = mc2 to E = mc2/22—A Short Account of the Most Famous Equation in Physics and Its Hidden Quantum Entanglement Origin
	2014

[33]	From nonlocal elasticity to nonlocal spacetime and nano science
	2014

[34]	From E= mc 2 to E= mc 2/22—A Short Account of the Most Famous Equation in Physics and Its Hidden Quantum Entanglement Origin
	2014

[35]	Nonlocal Elasticity to Nonlocal Spacetime and Nanoscience
	Bubbfil Nanotechnology, 2014

[36]	Deriving E= mc 2/22 of Einstein’s ordinary quantum relativity energy density from the Lie symmetry group SO (10) of grand unification of all fundamental forces and without quantum mechanics
	American Journal of Mechanics and Applications, 2014

[37]	Cosserat-Cartan modification of Einstein-Riemann relativity and cosmic dark energy density
	American Journal of Modern Physics, 2014

[38]	Compactified dimensions as produced by quantum entanglement, the four dimensionality of Einstein's smooth spacetime and 'tHooft's 4-ε fractal spacetime
	American Journal of Astronomy & Astrophysics, 2014

[39]	The measure concentration of convex geometry in a quasi Banach spacetime behind the supposedly missing dark energy of the cosmos
	American Journal of Astronomy and Astrophysics, 2014

[40]	Electromagnetic—Pure Gravity Connection via Hardy's Quantum Entanglement
	Journal of Electromagnetic Analysis and Applications, 2014

[41]	The meta energy of dark energy
	Open Journal of Philosophy, 2014

[42]	The Gap Labelling Integrated Density of States for a Quasi Crystal Universe Is Identical to the Observed 4.5 Percent Ordinary Energy Density of the Cosmos
	Natural Science, 2014

[43]	From E= mc2 to E= mc2/22—A Short Account of the Most Famous Equation in Physics and Its Hidden Quantum Entanglement Origin
	Journal of Quantum Information Science, 2014

[44]	From Highly Structured E-Infinity Rings and Transfinite Maximally Symmetric Manifolds to the Dark Energy Density of the Cosmos
	Advances in Pure Mathematics, 2014

[45]	Entanglement of E8E8 Exceptional Lie Symmetry Group Dark Energy, Einstein’s Maximal Total Energy and the Hartle-Hawking No Boundary Proposal as the Explanation for Dark Energy
	World Journal of Condensed Matter Physics, 2014

[46]	The hidden quantum entanglement roots of E= mc 2 and its genesis to E=(mc 2/22) plus mc 2 (21/22) confirming Einstein's mass-energy formula
	American Journal of Electromagnetics and Applications, 2014

[47]	Both particle and wave aspects are embedded in quantum objects. Can we suppress either aspect of a quantum particle?
	2014

[48]	Is there a relation between vacuum fluctuations (Heisenberg's uncertainty principle) and gravitational waves?
	2014

[49]	Deriving E= mc2/22 of Einstein's ordinary quantum relativity energy density from the Lie symmetry group SO (10) of grand unification of all fundamental …
	American Journal of Mechanics & Applications, 2014

[50]	From the Logical Foundation and the Derivation of E=(mc2/22)+(mc2)(21/22)= mc2 to the Fractal Nature of Reality
	2014

[1]	Quantum Disentanglement as the Physics behind Dark Energy Open Journal of Microphysics, 2017 DOI:10.4236/ojm.2017.71001

[2]	The Speed of the Passing of Time as Yet Another Facet of Cosmic Dark Energy Journal of Modern Physics, 2016 DOI:10.4236/jmp.2016.715184

[3]	Completing Einstein’s Spacetime Journal of Modern Physics, 2016 DOI:10.4236/jmp.2016.715175

[4]	Kähler Dark Matter, Dark Energy Cosmic Density and Their Coupling Journal of Modern Physics, 2016 DOI:10.4236/jmp.2016.714173

[5]	Cantorian-Fractal Kinetic Energy and Potential Energy as the Ordinary and Dark Energy Density of the Cosmos Respectively Natural Science, 2016 DOI:10.4236/ns.2016.812052

[6]	Einstein’s Dark Energy via Similarity Equivalence, ‘tHooft Dimensional Regularization and Lie Symmetry Groups International Journal of Astronomy and Astrophysics, 2016 DOI:10.4236/ijaa.2016.61005

[7]	The Emergence of Spacetime from the Quantum in Three Steps Advances in Pure Mathematics, 2016 DOI:10.4236/apm.2016.66032

[8]	High Energy Physics and Cosmology as Computation American Journal of Computational Mathematics, 2016 DOI:10.4236/ajcm.2016.63020

[9]	Max Planck Half Quanta as a Natural Explanation for Ordinary and Dark Energy of the Cosmos Journal of Modern Physics, 2016 DOI:10.4236/jmp.2016.712129

[10]	From Kantian-Reinen Vernunft to the Real Dark Energy Density of the Cosmos via the Measure Concentration of Convex Geometry in Quasi Banach Spacetime Open Journal of Philosophy, 2015 DOI:10.4236/ojpp.2015.51014

[11]	Quantum Fractals and the Casimir-Dark Energy Duality—The Road to a Clean Quantum Energy Nano Reactor Journal of Modern Physics, 2015 DOI:10.4236/jmp.2015.69137

[12]	Hubble Scale Dark Energy Meets Nano Scale Casimir Energy and the Rational of Their T-Duality and Mirror Symmetry Equivalence World Journal of Nano Science and Engineering, 2015 DOI:10.4236/wjnse.2015.53008

[13]	Application of Dvoretzky’s Theorem of Measure Concentration in Physics and Cosmology Open Journal of Microphysics, 2015 DOI:10.4236/ojm.2015.52002

[14]	A Resolution of the Black Hole Information Paradox via Transfinite Set Theory World Journal of Condensed Matter Physics, 2015 DOI:10.4236/wjcmp.2015.54026

[15]	On El Naschie’s Fractal-Cantorian Space-Time and Dark Energy—A Tutorial Review Natural Science, 2015 DOI:10.4236/ns.2015.713058

[16]	From E = mc² to E = mc²/22—A Short Account of the Most Famous Equation in Physics and Its Hidden Quantum Entanglement Origin Journal of Quantum Information Science, 2014 DOI:10.4236/jqis.2014.44023

[17]	Electromagnetic—Pure Gravity Connection via Hardy’s Quantum Entanglement Journal of Electromagnetic Analysis and Applications, 2014 DOI:10.4236/jemaa.2014.69023

[18]	From Highly Structured E-Infinity Rings and Transfinite Maximally Symmetric Manifolds to the Dark Energy Density of the Cosmos Advances in Pure Mathematics, 2014 DOI:10.4236/apm.2014.412073

[19]	The Gap Labelling Integrated Density of States for a Quasi Crystal Universe Is Identical to the Observed 4.5 Percent Ordinary Energy Density of the Cosmos Natural Science, 2014 DOI:10.4236/ns.2014.616115

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	+1 323-425-8868
	customer@scirp.org
	+86 18163351462(WhatsApp)
	1655362766

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