544 Real Analysis
We now recognize a perfect square and write this as
∫ 10(
f(x)−x
2) 2
dx= 0.The integral of the nonnegative continuous function(f (x)−x 2 )^2 is strictly positive, unless
the function is identically equal to zero. It follows that the only function satisfying the
condition from the statement isf(x)=x 2 ,x∈[ 0 , 1 ].
(Revista de Matematic ̆a din Timi ̧soara(Timi ̧soara Mathematics Gazette), proposed
by T. Andreescu)
474.Performing the substitutionx
(^1) k
=t, the given conditions become
∫ 1
0
(f (t))n−ktk−^1 dt=
1
n,k= 1 , 2 ,...,n− 1.Observe that this equality also holds fork=n. With this in mind we write
∫ 10(f(t)−t)n−^1 dt=∫ 1
0n∑− 1k= 0(
n− 1
k)
(− 1 )k(f (t))n−^1 −ktkdt=
∫ 1
0∑nk= 1(
n− 1
k− 1)
(− 1 )k−^1 (f (t))n−ktk−^1 dt=
∑nk= 1(− 1 )k−^1(
n− 1
k− 1)∫ 1
0(f (t))n−ktk−^1 dt=
∑nk= 1(− 1 )k−^1(
n− 1
k− 1)
1
n=
1
n( 1 − 1 )n−^1 = 0.Becausen−1 is even,(f (t)−t)n−^1 ≥0. The integral of this function can be zero only if
f(t)−t=0 for allt∈[ 0 , 1 ]. Hence the only solution to the problem isf:[ 0 , 1 ]→R,
f(x)=x.
(Romanian Mathematical Olympiad, 2002, proposed by T. Andreescu)
475.Note that the linear functiong(x)= 6 x−2 satisfies the same conditions asf.
Therefore,
∫ 1
0(f (x)−g(x))dx=∫ 1
0x(f (x)−g(x))dx= 0.Considering the appropriate linear combination of the two integrals, we obtain
∫ 10p(x)(f (x)−g(x))dx= 0.