4
$\begingroup$

I am trying to prove: $P(n): |x_1| + \cdots + |x_n| \leq |x_1 + \cdots +x_n|$ for all natural numbers $n$. The $x_i$ are real numbers.

Base: Let $n =1$: we have $|x_1| \leq |x_1|$ which is clearly true

Step: Let $k$ exist in the integers such that $k \geq 1$ and assume $P(k)$ is true.

This is where I am lost. I do not see how to leverage the induction hypothesis.

Here is my latest approach:

Can you do the following in the induction step: Let $Y$ = |$x_1$ +...+$x_n$| and Let $Z$ = |$x_1$| +...+ |$x_n$| Then we have: |$Y$ + $x_n+1$| $\leq$ $Z$ + |$x_n+1$|. $Y$ $\leq$ $Z$ from the induction step, and then from the base case this is just another triangle inequality. End of proof.

  • 0
    I believe you have the inquality wrong and that is should be $\geq$ and not $\leq$2012-09-14

2 Answers 2

11

As @ivan indicates, the inequality is reversed - it should be

$ |x_1 + x_2 + \dots + x_n| \leq |x_1| + |x_2| + \dots + |x_n| $

As the base case for induction, you need to show (or assert? can you take the "basic" triangle inequality for granted?)

$ |x_1 + x_2| \leq |x_1| + |x_2|. $

Hint:

One way to do this is to show $(|a + b|)^2 \leq (|a| + |b|)^2$ by expanding the LHS and using $ab \leq |a||b|$.

Then, for induction, assume

$ |x_1 + x_2 + \dots + x_n| \leq |x_1| + |x_2| + \dots + |x_n| $

and show

$ |x_1 + x_2 + \dots + x_n + x_{n+1}| \leq |x_1| + |x_2| + \dots + |x_n| + |x_{n+1}|$

using the induction hypothesis and the base case.

  • 2
    Right idea, though you should have $Y = x_1 + \dots + x_n$, (otherwise, when you write $|Y + x_{n+1}|$, you're referring to $||x_1 + \dots + x_n| + x_{n+1}|$. You'll have $|Y| \leq Z$ by the induction hypothesis.2012-09-17
0

It is ok for $|x_1 + x_2| < |x_1| + |x_2|$ (I)

$|x_1 + x_2 +\cdots+ x_k| < |x_1| + |x_2|+...+ |x_k|$ (Hipothesis)(II)

For $n = k+1$ :

a) 1st. Apply The triangle inequality for $2$ different "numbers" $(x_1 + x_2 +\cdots+ x_k)$ and $x_{k+1}$ because it is ok by (I)

b)2nd Apply the induction Hipothesis (II)

$|x_1+x_2+\cdots+ x_k +x_{k+1}| < |x_1 + x_2 +\cdots+x_k|+|x_{k+1}| < |x_1|+|x_2|+..+|x_k|+|x_{k+1}|$

  • 0
    Thanks Sassatelli, I used < because I had no idea how to write ≤ .2015-05-18