The freshman's dream is a name given to the erroneous equation
(x+y)n=xn+yn
n
x,y
The name "freshman's dream" also sometimes refers to the theorem that says that for a prime number p, if x and y are members of a commutative ring of characteristic p, then (x + y)p = xp + yp. In this more exotic type of arithmetic, the "mistake" actually gives the correct result, since p divides all the binomial coefficients apart from the first and the last, making all the intermediate terms equal to zero.
The identity is also actually true in the context of tropical geometry, where multiplication is replaced with addition, and addition is replaced with minimum.
(1+4)2=52=25
12+42=17
\sqrt{x2+y2}
\sqrt{x2}+\sqrt{y2}=|x|+|y|
\sqrt{9+16}=\sqrt{25}=5
When
p
x
y
p
(x+y)p=xp+yp
\binom{p}{n}=
| p! | |
| n!(p-n)! |
.
The numerator is p factorial(!), which is divisible by p. However, when, both n! and are coprime with p since all the factors are less than p and p is prime. Since a binomial coefficient is always an integer, the nth binomial coefficient is divisible by p and hence equal to 0 in the ring. We are left with the zeroth and pth coefficients, which both equal 1, yielding the desired equation.
Thus in characteristic p the freshman's dream is a valid identity. This result demonstrates that exponentiation by p produces an endomorphism, known as the Frobenius endomorphism of the ring.
Zp[x]
The history of the term "freshman's dream" is somewhat unclear. In a 1940 article on modular fields, Saunders Mac Lane quotes Stephen Kleene's remark that a knowledge of in a field of characteristic 2 would corrupt freshman students of algebra. This may be the first connection between "freshman" and binomial expansion in fields of positive characteristic.[4] Since then, authors of undergraduate algebra texts took note of the common error. The first actual attestation of the phrase "freshman's dream" seems to be in Hungerford's graduate algebra textbook (1974), where he quotes McBrien.[5] Alternative terms include "freshman exponentiation", used in Fraleigh (1998).[6] The term "freshman's dream" itself, in non-mathematical contexts, is recorded since the 19th century.[7]
Since the expansion of is correctly given by the binomial theorem, the freshman's dream is also known as the "child's binomial theorem"[3] or "schoolboy binomial theorem".