To yppop: I still do not really understand what you have written but I will not refute it because that would not be fair to you when I do not understand it to agree or disagree with the statement you posed. That being said, we have gravity, energy, matter, and time as part of the Big Bang theory. So is space if as you say If I understad you correctly, to also be created, than space needs to be added also to the above four. So far as I understnd the Big bang theory is that so far science still does not know What Banged? Why it banged? and What was before it Banged? Another question to ponder: How do we know it was a Big Bang? Could it have been a little Bang? and since there was no atmosphere to carry sound, how do we know it Banged? Science tries to understand the How, and Religion tries to understand the Why. Science tells us how the heavens go and religion tells us how to get to heaven.
Spina,
At the end of the 19th century astronomers thought that the our galaxy was the entire universe. William Herschel, the preeminent astronomer at the time had thought that the fuzzy objects called nebula might be separate galaxies but changed his mind
1908 - Henrietta Leavitt, doing the grunt work usually assigned to females discovered a relationship between luminosity and the period of Cepheid variable stars
1913 - Vesto Slipher, studying spectra of nebula, noticed that the spectral lines were shifted towards the red
1916 - Einstein published his general theory of relativity and applying it to the universe concluded that the universe was expanding, promptly added a constant, the so-called cosmological constant, to cancel out the expansion
1922 - Alexander Friedman, a Russian scientist, repeated Einstein’s calculation and found that Einstein made a mistake, and even with the cosmological constant the result was an expanding universe.
1924 - Edwin Hubble used the new 100 inch Mt. Wilson telescope to observe the several nebula and applied Henrietta Leavitt’s Cepheid variable relationship between luminosity and period to measure the galactic distances and found that nebulae were much farther away than the most distant stars in the Milky-Way galaxy. The nebulae , in fact, were galaxies.and the universe was far greater than had previously been thought.
1929 - Hubble, in analyzing red-shift data, discovered that greater the distance to a galaxy the greater the red-shift and the faster it was receding from us. This was proof that the universe was immense and expanding.
1931 - George Lemaitre, a Catholic priest, realized that an expanding universe implied that the universe was expanding from something. Extrapolating the universe backwards in time, he concluded that the universe had emerged from an infinitesimal object he called the “primeval atom”.
1948 - Ralph Alpher and George Gamow calculated what the remnant of Lemaitre’s primeval atom would be like in an expanding universe and predicted the relative levels of hydrogen and helium in the universe. and also concluded that the afterglow (the cosmic microwave background radiation, CMB) would be about 5 degrees Kelvin.
1949 - Fred Hoyle, a British cosmologist, the developer of the “Steady State” theory, which required addition of space to the expanding universe, hence no beginning, coined the name “Big Bang” to demean (he denied it) the LeMaitre interpretation.
1964 - Arno Penzias and Robert Wilson at BTL’s Holmdel Laboratory, while developing antennas for satellite communication, were troubled by a background noise coming from all parts of the sky. Since the noise could not be attributed to any particular cosmic object, they assumed that the problem was associated with their equipment. They worked for over a year to find its source. They disassembled and rebuilt the equipment, scraped pigeon dirt from the antenna, and repainted to no avail. They measured the level of the background noise and found it to be about three degrees Kelvin.
1964 - A group of physicists led by Jim Peeples and Robert Dicke at Princeton university, a short distance from Holmdel, were setting up to search for a signal from space. The Princeton group had deduced that the remnants of the explosion should be present as an extremely low temperature radiation spread throughout the universe. The signal that the Princeton group was looking for was the one that Gamow had proposed earlier. Eventually, Dicke’s group heard about Penzias and Wilson’s “noise” observation; the two groups made contact and realized that the noise that Penzias and Wilson were trying to eliminate was the signal the Princeton group was looking for. The signal that caused so much consternation in Holmdel came to be called the cosmic microwave background radiation (CMBR), the remnants of the big bang. It put the steady state theory to rest and established the big bang theory as accepted science.
Since then. additional verification has been made when the predicted values of hydrogen, helium, and lithium were confirmed by measurement. Also a standard model was developed by relating the events that occurred to the calculated energy.
Yppop