`Let`

is parallel, `let*`

is sequential. `Let`

translates as

```
((lambda(a b c) ... body ...)
a-value
b-value
c-value)
```

but `let*`

as

```
((lambda(a)
((lambda(b)
((lambda(c) ... body ...)
c-value))
b-value))
a-value)
```

and is thus creating nested scope blocks where `b-value`

expression can refer to `a`

and `c-value`

- to `b`

and `a`

. `a-value`

belongs to the outer scope. This is also equivalent to

```
(let ((a a-value))
(let ((b b-value))
(let ((c c-value))
... body ... )))
```

There is also `letrec`

, allowing for recursive bindings, where all variables and expressions belong to one shared scope and can refer to each other (with some caveats pertaining to initialization). It is equivalent either to

```
(let ((a *undefined*) (b *undefined*) (c *undefined*))
(set! a a-value)
(set! b b-value)
(set! c c-value)
... body ... )
```

(in Racket, also available as `letrec*`

in Scheme, since R6RS), or to

```
(let ((a *undefined*) (b *undefined*) (c *undefined*))
(let ((_x_ a-value) (_y_ b-value) (_z_ c-value)) ; unique identifiers
(set! a _x_)
(set! b _y_)
(set! c _z_)
... body ... ))
```

(in Scheme).

`let`

s and`let*`

s, while this one is asking for a general overview. – Inaimathi Feb 21 '13 at 15:05