I am trying to model the structure of an algebraic group with Alloy.

A group just has a set of elements and a binary relation with certain properties so I thought it would be a good fit for alloy.

This is what I started with

```
sig Number{}
/* I call it Number but this is really just a name for some objects that are going to be in the group */
sig Group{
member: set Number,
product: member->member->member, /*This is the part I'm really not sure about the Group is supposed to have a a well-defined binary relation so I thought maybe I could write it like this, sort of as a Curried function...I think it's actually a ternary relation in Alloy language since it takes two members and returns a third member */
}{//I want to write the other group properties as appended facts here.
some e:member | all g:member| g->e->g in product //identity element
all g:member | some i:member| g->i->e in product /* inverses exist I think there's a problem here because i want the e to be the same as in the previous line*/
all a,b,c:member| if a->b->c and c->d->e and b->c->f then a->f->e //transitivity
all a,b:member| a->b->c in product// product is well defined
}
```