3.2 Continuity, Derivatives, and Integrals 137404.For a nonzero real numberxprove thatex>x+1.
405.Find all positive real solutions to the equation 2x=x^2.
406.Letf:R→Rbe given byf(x)=(x−a 1 )(x−a 2 )+(x−a 2 )(x−a 3 )+(x−
a 3 )(x−a 1 )witha 1 ,a 2 ,a 3 real numbers. Prove thatf(x)≥0 for all real numbers
xif and only ifa 1 =a 2 =a 3.
407.Determine
max
z∈C,|z|= 1|z^3 −z+ 2 |.408.Find the minimum of the functionf:R→R,
f(x)=(x^2 −x+ 1 )^3
x^6 −x^3 + 1.
409.How many real solutions does the equation
sin(sin(sin(sin(sinx))))=
x
3
have?410.Letf:R→Rbe a continuous function. Forx∈Rwe define
g(x)=f(x)∫x0f(t)dt.Show that ifgis a nonincreasing function, thenfis identically equal to zero.- Letfbe a function having a continuous derivative on[ 0 , 1 ]and with the property
that 0<f′(x)≤1. Also, suppose thatf( 0 )=0. Prove that
[∫ 1
0f(x)dx] 2
≥
∫ 1
0[f(x)]^3 dx.Give an example in which equality occurs.412.Letx, y, zbe nonnegative real numbers. Prove that
(a)(x+y+z)x+y+zxxyyzz≤(x+y)x+y(y+z)y+z(z+x)z+x.
(b)(x+y+z)(x+y+z)
2
xx
2
yy
2
zz
2
≥(x+y)(x+y)
2
(y+z)(y+z)
2
(z+x)(z+x)
2
.
Derivatives have an important application to the computation of limits.L’Hôpital’s rule.For an open intervalI, if the functionsfandgare differentiable on
I{x 0 },g′(x) = 0 forx∈I,x =x 0 , and eitherlimx→x 0 f(x)=limx→x 0 g(x)= 0