edits

[lambda.git] / week4.mdwn

diff --git a/week4.mdwn b/week4.mdwn
index 4c8288e..e6bab7a 100644 (file)
--- a/week4.mdwn
+++ b/week4.mdwn
@@ -133,11 +133,7 @@ leftmost/call-by-name/normal-order evaluation strategy, we'll always
 start with the `isZero` predicate, and only produce a fresh copy of
 `prefac` if we are forced to. 
 
-#Q.  You claimed that the Ackerman function couldn't be implemented
-using our primitive recursion techniques (such as the techniques that
-allow us to define addition and multiplication).  But you haven't
-shown that it is possible to define the Ackerman function using full
-recursion.#
+#Q.  You claimed that the Ackerman function couldn't be implemented using our primitive recursion techniques (such as the techniques that allow us to define addition and multiplication).  But you haven't shown that it is possible to define the Ackerman function using full recursion.#
 
 A. OK:
   
@@ -165,3 +161,13 @@ A 2 x is to A 1 x as multiplication is to addition;
 A 3 x is to A 2 x as exponentiation is to multiplication---
 so A 4 x is to A 3 x as hyper-exponentiation is to exponentiation...
 
+#Q. What other questions should I be asking?#
+
+*    What is it about the variant fixed-point combinators that makes
+     them compatible with a call-by-value evaluation strategy?
+
+*    How do you know that the Ackerman function can't be computed
+     using primitive recursion techniques?
+
+*    What *exactly* is primitive recursion?
+