Geometry and Trigonometry 663=sinusin(v+w)−cosucos(v+w)=−cos(u+v+w).And of course this takes values in the interval[− 1 , 1 ]. The inequality is proved.
(T. Andreescu, Z. Feng, 103Trigonometry Problems, Birkhäuser 2004)
680.The denominators suggest the substitution based on tangents. This idea is further
enforced by the identityx+y+z=xyz, which characterizes the tangents of the angles
of a triangle. Setx=tanA,y=tanB,z=tanC, withA, B, Cthe angles of an acute
triangle. Note that
tanA
√
1 +tan^2 A
=
tanA
secA
=sinA,so the inequality is equivalent tosinA+sinB+sinC≤3
√
3
2
.
This is Jensen’s inequality applied to the functionf(x)=sinx, which is concave
on( 0 ,π 2 ).
681.If we multiply the inequality through by 2, thus obtaining
2 x
1 −x^2+
2 y
1 −y^2+
2 z
1 −z^2≥ 3
√
3 ,
the substitution by tangents becomes transparent. This is because we should recognize
the double-angle formulas on the left-hand side.
The conditions 0< x,y,z <1 andxy+xz+yz=1 characterize the tangents of
the half-angles of an acute triangle. Indeed, ifx=tanA 2 ,y=tanB 2 , andz=tanC 2 , then
0 < x,y,z <1 impliesA, B, C∈( 0 ,π 2 ). Also, the equalityxy+xz+yz=1, which
is the same as
1
z=
x+y
1 −xy,
impliescotC
2
=tanA+B
2
.
And this is equivalent toπ 2 −C 2 =A+ 2 B,orA+B+C=π.
Returning to the problem, with the chosen trigonometric substitution the inequality
assumes the much simpler form
tanA+tanB+tanC≥ 3