- How many mathematicians does it take to replace a lightbulb (1)?
Ten: One to do it and eight to watch.
- How many mathematicians does it take to replace a lightbulb (2)?
One: He gives it to six Californians, thereby solves the problem by
reducing it to a previous joke. - How many mathematicians does it take to replace a lightbulb (3)?
The answer is intuitively obvious.
- How many mathematicians does it take to replace a lightbulb (4)?
None. It’s left to the reader as an exercise.
- How many mathematical logicians does it take to replace a
lightbulb?None: They can’t do it, but they can prove that it can be done.
- How many numerical analysts does it take to replace a lightbulb?
3.9967: (after six iterations).
- How many classical geometers does it take to replace a lightbulb?
None: You can’t do it with a straight edge and a compass.
- How many constructivist mathematicians does it take to replace a
lightbulb?None: They do not believe in infinitesimal rotations.
- How many simulationists does it take to replace a lightbulb?
Infinity: Each one builds a fully validated model, but the light
actually never goes on. - How many topologists does it take to change a lightbulb (1)?
Just one. But what will you do with the doughnut?
- How many topologists does it take to change a lightbulb (2)?
It really doesn’t matter, since they’d rather knot.
- How many analysts does it take to screw in a lightbulb?
Three: One to prove existence, one to prove uniqueness and one to
derive a nonconstructive algorithm to do it. - How many functions does it take to replace a lightbulb?
The integral of f: But that’s not definite.
- How many real functions does it take to replace a lightbulb?
None: It’s too complex for them.
- How many Bourbakists does it take to replace a lightbulb?
Changing a lightbulb is a special case of a more general theorem
concerning the maintainence and repair of an electrical system. To
establish upper and lower bounds for the number of personnel
required, we must determine whether the sufficient conditions of
Lemma 2.1 (Availability of personnel) and those of Corollary 2.3.55
(Motivation of personnel) apply. Iff these conditions are met,
we derive the result by an application of the theorems in Section
3.1123. The resulting upper bound is, of course, a result in an
abstract measure space, in the weak-* topology. - How many professors does it take to replace a lightbulb?
One: With eight research students, two programmers, three post-docs
and a secretary to help him. - How many university lecturers does it take to replace a lightbulb?
Four: One to do it and three to co-author the paper.
- How many graduate students does it take to replace a lightbulb?
Only one: But it takes nine years.