Simplification of $\displaystyle{0 \binom{n}{0} + 2 \binom{n}{2} + 4 \binom{n}{4} + 6 \binom{n}{6} + \cdots}$

A combinatorial proof is in order!

The given expression is the number of ways to choose an even-sized subset of $n$ people, and promote one of them to be the leader. Notice that $n\cdot 2^{n-2}$ is the number of ways to choose the leader first, then choose an odd-sized subset from the remaining $n-1$ people (as the number of odd-sized subsets is the same as the number of even-sized ones). Hence the two sides are equal.


Sure. Notice that $$\sum _{i = 0}^{n}2i\binom{n}{2i}=\sum _{i = 0}^{n}\binom{2i}{1}\binom{n}{2i}=\sum _{i = 1}^{n}\binom{n}{1}\binom{n-1}{2i-1}=n\sum _{i=1}^n\binom{n-1}{2i-1}=n\cdot 2^{n-2}.$$ Notice that the last step is because you are adding half of the binomials, and the odd half equals the even half by the binomial theorem.

Tags:

Combinatorics

Summation

Binomial Theorem

Related

Probability of Exiting A Roundabout Banach-Alaoglu Theorem over spherically complete non-Archimedean fields $\sqrt{a+b} (\sqrt{3a-b}+\sqrt{3b-a})\leq4\sqrt{ab}$ Show that $\int_0^1 h(t)dt\geq\left(\int_0^1 f(t)dt \right)^a\left(\int_0^1 g(t)dt \right)^{1-a}$ Quadratic Euler sums $\sum _{n=1}^{\infty } \frac{(-1)^{n-1} \widetilde H(n)^3}{2 n+1}$ limit related to the Lambert function Integrating $\sin(x)x^2$ by parts, why do we only add $C$ at the end? Question about product of generating functions in a proof that for positive integer $n$, $\sum_{k=0}^n(-1)^k\binom nk\binom{2n-k}n=1$. Which is greater $\frac{13}{32}$ or $\ln \left(\frac{3}{2}\right)$ Question about Spivak's proof of how to use u-substitution when the derivative of the inner function does not appear in the integral Solve the following equation in integers $x,y:$ $x^2+6xy+8y^2+3x+6y=2.$ A sequence of quadratic equations

Recent Posts