# What is meant by “Big Bang” in expressions like “$10^{-36}$ seconds after the Big Bang”?

Sometimes I find expressions like "The inflationary epoch lasted from $$10^{−36}$$ seconds after the conjectured Big Bang singularity [...]". What is meant by "the Big Bang" in this context?

I understand "Big Bang theory" as the whole explanation of how the universe evolved form a very dense and hot state. Isn't "the Big Bang" the process of expansion rather than a singular event? If not, what should I understand by "Big Bang"?

The Big Bang was a singularity. By analogy, the function $$f(x)=1/\sqrt{x}$$ has a domain $$(0,\infty)$$, which doesn't include $$x=0$$ because the function misbehaves there. The Big Bang singularity is technically not considered an "event" because it's not a point or set of points that we include on the spacetime manifold.

So time since the big bang means the upper bound on the time measured by any clock that has always been at rest relative to the Hubble flow.

The expansion event we call the "Big Bang" had a beginning. Depending on the context, that term can either refer to its beginning point (or very close to it) in time, or to the first few minutes of it during which all the hydrogen and helium in the early universe was formed.

• I read a book, I don't recall the title, that suggested there were multiple big bangs all over, thus explaining why every things seemed to be expanding away from everything else, no matter where you looked in the universe. – CrossRoads Nov 13 '19 at 19:21
• the big bang expanded everywhere at the same time, which someone might think of as representing a lot of separate big bangs working together- but that's not how must astrophysicist guys think of it. – niels nielsen Nov 13 '19 at 19:27
• This article presents a different view. medium.com/starts-with-a-bang/… The book I read, or maybe it was a 2nd book, was discussing how matter appeared out of nothing, maybe similar to this article medium.com/the-physics-arxiv-blog/… – CrossRoads Nov 13 '19 at 19:43