An Elementary Inequality Problem Given n positive real numbers x_1,x_2,...,x_(n+1), suppose:1/(1+x_1)+1/(1+x_2)+...+1/(1+x_(n+1))=1 Prove: x_1x_2...x_(n+1)>=(n^(n+1)) I have tried the substitution t_i=1/(1+x_i) The problem thus becomes: Given t_1+t_2+...+t_(n+1)=1,t_i>0 Prove: (1/t_1−1)(1/t_2−1)...(1/t_(n+1)−1)>=n^(n+1) Which is equavalent to the following: ((t_2+t_3+...+t_(n+1))/(t_1))((t_1+t_3+...+t_(n+1))/(t_2))...((t_1+t_2+...+t_n)/(t_(n+1)))>=n^(n+1) From now on, I think basic equality (which says arithmetic mean is greater than geometric mean) can be applied but I cannot quite get there. Any hints? Thanks in advance.

Which expression has both 8 and n as factors???

One number is 2 more than 3 times another. Their sum is 22. Find the numbers
8, 14
5, 17
2, 20
4, 18
10, 12

Perform the indicated operation and simplify the result. Leave your answer in factored form
${\displaystyle \left[\frac{(4x-8)}{(-3x)}\right].\left[\frac{12}{(12-6x)}\right]}$

An ordered pair set is referred to as a ___?

Please, can u convert 3.16 (6 repeating) to fraction.

Write an algebraic expression for the statement '6 less than the quotient of x divided by 3 equals 2'.
A) $6-<!--\; -\; -->\frac{x}{3}=2$
B) $\frac{x}{3}-<!--\; -\; -->6=2$
C) 3x−6=2
D) $\frac{3}{x}-<!--\; -\; -->6=2$

Find: $2.48÷4$.

Multiplication $999\times <!--\; \times \; -->999$ equals.

Solve: (128÷32)÷(−4)=
A) -1
B) 2
C) -4
D) -3

What is ${\displaystyle 0.78888.....}$ converted into a fraction? ${\displaystyle \left(0.7\overline{8}\right)}$

The mixed fraction representation of 7/3 is...

How to write the algebraic expression given: the quotient of 5 plus d and 12 minus w?

Express 200+30+5+4100+71000 as a decimal number and find its hundredths digit.
A)235.47,7
B)235.047,4
C)235.47,4
D)234.057,7

Find four equivalent fractions of the given fraction:$\frac{6}{12}$

How to find the greatest common factor of ${\displaystyle 80x^3,30y{x}^2}$?