Advanced book on Mathematics Olympiad

3.4 Equations with Functions as Unknowns 187

Example.Letx 1 ,x 2 ,...,xnbe arbitrary real numbers. Prove the inequality

x 1

1 +x^21

+

x 2

1 +x^21 +x 22

+···+

xn

1 +x 12 +···+xn^2

<

√

n.

Solution.We introduce the function

fn(x 1 ,x 2 ,...,xn)=

x 1

1 +x 12

+

x 2

1 +x 12 +x 22

+···+

xn

1 +x 12 +···+x^2 n

.

If we setr=

√

1 +x 12 , then

fn(x 1 ,x 2 ,...,xn)=

x 1

r^2

+

x 2

r^2 +x 22

+···+

xn

r^2 +x 22 +···+x^2 n

=

x 1

r^2

+

1

r

( x

2

r

1 +(xr^2 )^2

+···+

xn

r

1 +(xr^2 )^2 +···+

(xn

r

) 2

)

.

We obtain the functional equation

fn(x 1 ,x 2 ,...,xn)=

x 1

1 +x 12

+

1

√

1 +x 12

fn− 1

(x 2

r

,

x 3

r

,...,

xn

r

)

.

WritingMn=supfn(x 1 ,x 2 ,...,xn), we observe that the functional equation gives rise
to the recurrence relation

Mn=sup

x 1

⎛

⎝ x^1

1 +x 12

+

Mn− 1

√

1 +x 12

⎞

⎠.

We will now prove by induction thatMn<

√

n. Forn=1, this follows from 1 +x^1 x 2

1

≤

1
2 <1. Assume that the property is true forkand let us prove it fork+1. From the
induction hypothesis, we obtain

Mk<sup

x 1

⎛

⎝ x^1

1 +x 12

+

√

k

√

1 +x 12

⎞

⎠.

We need to show that the right-hand side of the inequality is less than or equal to

√

k+1.
Rewrite the desired inequality as

x

√

1 +x^2

+

√

k≤

√

k+kx^2 + 1 +x^2.