customer service
Projects
The Number 137 is well-known throughout the physics community as the approximate inverse of the Fine Structure constant. It even has a name - alpha - which seems to be a supernatural coincidence given the context in which this number appears - John 1.1-5 - and the numerous highly significant identities associated with the Greek word Alpha
Dec 16, 2020 · The fine-structure constant determines the strength of the electromagnetic force, and is central in explaining a number of phenomena including the …
Learn MoreThe fine structure constant is a measure of the probability, or frequency, of interactions between photons and electrons, contingent on the distribution of matter. It is dimensionless for the same reason that any probability is dimensionless
Learn MoreDefinition of fine-structure constant. : a dimensionless constant that is a measure of the strength of electromagnetic interactions of subatomic particles and that has an approximate value of 0.0073 or ¹/₁₃₇ —symbol α
Learn MoreThe fine-structure constant is a unitless numerical constant - whose value is approximately equal to: 1/137. In fact the exact value of the fine-structure constant is: 0.007297351 +/- 0.000000006 . Accepted symbol for the fine-structure constant is Greek alpha ( )
Learn MoreDec 04, 2020 · The fine-structure constant (denoted by the Greek α for "alpha") shows the strength of the electromagnetic forces between elementary particles like electrons and protons and is utilized in …
Learn MoreDec 04, 2020 · The fine-structure constant, which helps us balance the energy difference between coarse and fine atomic models, is in the same family as constants like the speed of light
Learn MoreOct 04, 2016 · The fine-structure constant is simply a number — a pure number. It has no meaning. It has no meaning. It stands for nothing — not inches or feet or speed or weight; not anything
Learn MoreDec 16, 2020 · The team in Paris measured the value of the fine-structure constant as 1/137.035999206, to an accuracy of 11 digits. The result appears in a study published in Nature
Learn MoreThe fine structure constant is given (in natural units) by. α = e 2 4 π, but, distinct from e, the fine structure constant is defined to be dimensionless. Thus if e is measured in units of charge, the fine structure constant is defined as. α = e 2 4 π ℏ c ϵ 0
Learn MoreThe Fine Structure Constant. [GR] > The Fine Structure Constant. This then is the message which we have heard of him, and declare unto you, that God is light, and in him is no darkness at all. 1 John 1.5. The Number 137 is well-known throughout the physics community as the approximate inverse of the Fine Structure constant
Learn MoreDec 02, 2020 · The fine-structure constant, by contrast, has no dimensions or units. It’s a pure number that shapes the universe to an astonishing degree — “a magic number that comes to us with no understanding,” as Richard Feynman described it. Paul Dirac considered the origin of the number “the most fundamental unsolved problem of physics.”
Learn MoreSep 24, 2018 · The fine structure constant is a dimensionless physical constant α, given by. where e is the elementary charge, ε 0 is vacuum permittivity, ħ is the reduced Planck constant, and c is the speed of light in a vacuum. Its value is roughly 1/137
Learn MoreThe fine structure constant, alpha (α), describes how electromagnetic radiation affects charged particles. It has the numerical value 0.007297351, with an uncertainty of 6 in the last decimal place, and as such is one of the best-measured numbers in physics
Learn MoreAccordingly, self-consistent theories of gravity and electromagnetism, which incorporate the fine-structure “constant” as a self-gravitating scalar field with self-consistent dynamics that couple
Learn MoreThe numerical value of a, the fine structure constant, is given by the special case n 1 = 137, n 2 = 29. Thus a = a(137,29) = 0.0072973525318… The experimental value for a is a exp = 0.007297352533(27), the (27) is +/- the experimental uncertainty in the last two digits
Learn More