Induction on the equality $ \sum_{i=2}^{n+1} \frac{1}{i(i+1)}= \frac{n}{2(n+2)}$

Question

Prove with induction principle: $$ \sum_{i=2}^{n+1} \frac{1}{i(i+1)}= \frac{n}{2(n+2)} \quad \forall n \geq 2\in \mathbb{N} $$

---

Starting prove $P(0)$: $$ \sum_{i=2}^{3} \frac{1}{i(i+1)}= \frac{1}{2(2+1)}+\frac{1}{2(3+1)}= \frac{1}{4} $$ $$ \frac{n}{2(n+2)}= \frac{2}{2(2+2)}=\frac{1}{4} $$ $\Rightarrow P(0) \text{ is true}$

---

Assuming $P(n)$ true: $$ \sum_{i=2}^{n+1} \frac{1}{i(i+1)}= \frac{n}{2(n+2)}$$ Prove that $P(n+1)$ is true: $$ \sum_{i=2}^{n+2} \frac{1}{i(i+1)}= \frac{n+1}{2(n+3)} $$ $$ \sum_{i=2}^{n+1} \frac{1}{i(i+1)}+\frac{1}{(n+2)(n+3)}= \frac{n+1}{2(n+3)} $$ from induction hypotesis $P(n)$: $$ \frac{n}{2(n+2)}+\frac{1}{(n+2)(n+3)}= \frac{n+1}{2(n+3)} $$

$$ \frac{n(n+3)+2}{2(n+2)(n+3)} = \frac{n+1}{2(n+3)}$$

If I made everything well, from this point I have no idea how to continue, please can anyone give me some hint about. thanks in advance

Answer 1

you have $$\frac{n}{2(n+2)}+\frac{1}{(n+2)(n+3)}=\frac{n^2+3n+2}{2(n+2)(n+3)}=\frac{(n+2)(n+1)}{2(n+2)(n+3)}=\frac{n+1}{2(n+3)}$$