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@@ -61,22 +61,20 @@ Some authors reserve the term "term" for just variables and abstracts. We won't
 
 Examples of expressions:
 
-<blockquote><code>
-x<p>
-(y x)<p>
-(x x)<p>
-(\x y)<p>
-(\x x)<p>
-(\x (\y x))<p>
-(x (\x x))<p>
-((\x (x x)) (\x (x x)))<p>
-</code></blockquote>
+	x
+	(y x)
+	(x x)
+	(\x y)
+	(\x x)
+	(\x (\y x))
+	(x (\x x))
+	((\x (x x)) (\x (x x)))
 
 The lambda calculus has an associated proof theory. For now, we can regard the
 proof theory as having just one rule, called the rule of **beta-reduction** or
 "beta-contraction". Suppose you have some expression of the form:
 
-	((\a M) N)
+	((\ a M) N)
 
 that is, an application of an abstract to some other expression. This compound form is called a **redex**, meaning it's a "beta-reducible expression." `(\a M)` is called the **head** of the redex; `N` is called the **argument**, and `M` is called the **body**.