I'm baffled by trying to create the equivalent of this trivial (in Common Lisp) macro in MIT Scheme:

```
(defmacro funcify (exp)
`(lambda (x) ,exp))
```

This is for a simple personal project, a numerical equation solver based on the functions built in the second SICP lecture. I don't care that this macro is not "safe" or "hygienic" or will capture a variable if the exp references any symbols other than 'x. I'd like to be able to write

```
(solv '(* 60 x) '(* 90 (- x 1)))
```

where solv is:

```
(define (solv lh-exp rh-exp)
(solve (funcify lh-exp) (funcify rh-exp)))
```

instead of having to type

```
(solve (lambda (x) (* 60 x)) (lambda (x) (* 90 (- x 1))))
```

But can't figure out how to do this using MIT Scheme syntax-rules.

I've tried this but it doesn't work:

```
(define-syntax funcify
(syntax-rules ()
((funcify y) (lambda (x) y))))
;Value: funcify
(funcify x)
;Value 17: #[compound-procedure 17]
((funcify x) 10)
;Unbound variable: x
```

I've tried other things probably not worth mentioning involving `eval`

but to no avail.

Also, references to good tutorials (not references) on Scheme's macro system that start with small simple examples and build up, with ample commentary, and in particular show how to convert backquote-comma style LISP macros (which to me are highly intuitive) to Scheme's syntax macro system would be great.