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Jehanne · January 10, 2016 at 5:42 pm

I am trying to understand them; any easy explanations from you pros?

**Alex K** · (This post was last modified: January 10, 2016 at 6:32 pm by Alex K.)

I'd be happy to help, but you need to be a bit more specific, as there is a lot one can say about tensors or do with them Big Grin

In what context do you need them? Which type?

Jehanne · January 10, 2016 at 7:00 pm

(January 10, 2016 at 6:31 pm)Quantum Wrote: I'd be happy to help, but you need to be a bit more specific, as there is a lot one can say about tensors or do with them
In what context do you need them? Which type?

I am trying to understand general relativity at a very basic level, but I want a quantitative understanding as opposed to merely a qualitative one, although, the latter certainly is helpful with respect to the former.

**Alex K** · (This post was last modified: January 10, 2016 at 7:09 pm by Alex K.)

(January 10, 2016 at 7:00 pm)Jehanne Wrote:
(January 10, 2016 at 6:31 pm)Quantum Wrote: I'd be happy to help, but you need to be a bit more specific, as there is a lot one can say about tensors or do with them
In what context do you need them? Which type?

I am trying to understand general relativity at a very basic level, but I want a quantitative understanding as opposed to merely a qualitative one, although, the latter certainly is helpful with respect to the former.

Aaaah, very good. I assume you know some calculus?

The important - and defining - thing about tensors in GR is how they change under changes of coordinates x^mu to x'^mu. It is probably best if you start by considering how vectors (i.e. 1-tensors with an upper index), let us call it v^mu, change when you go from coordinates x^mu to x'^mu(x).

The rule is relatively straightforward and involves the derivatives of x' with respect to x. You can find it anywhere, e.g. wiki.

More general upper index tensors are then exactly the same, except that each of the indices gets the same treatment.

Jehanne · January 10, 2016 at 7:19 pm

(January 10, 2016 at 7:08 pm)Quantum Wrote:
(January 10, 2016 at 7:00 pm)Jehanne Wrote: I am trying to understand general relativity at a very basic level, but I want a quantitative understanding as opposed to merely a qualitative one, although, the latter certainly is helpful with respect to the former.

Aaaah, very good. I assume you know some calculus?

The important - and defining - thing about tensors in GR is how they change under changes of coordinates x^mu to x'^mu. It is probably best if you start by considering how vectors (i.e. 1-tensors with an upper index), let us call it v^mu, change when you go from coordinates x^mu to x'^mu(x).

The rule is relatively straightforward and involves the derivatives of x' with respect to x. You can find it anywhere, e.g. wiki.

More general upper index tensors are then exactly the same, except that each of the indices gets the same treatment.

Okay, I'll have a look and keep this thread alive with questions! Thanks!!

**Alex K** · January 10, 2016 at 7:22 pm

I'm typing on my phone right now, hence my answers are a bit compressed...

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