If a, b, c are positive real numbers then show that
(i) `(a + b + c) ((1)/(a) + (1)/(b) +(1)/(c)) ge 9`
(ii) `(b+c)/(a) +(c +a)/(b) + (a+b)/(c) ge 6`

If a, b, c are positive real numbers, then the least value of (a+b+c)((1)/(a)+(1)/(b)+(1)/( c )) , is

If a, b, c are positive real numbers such that a+b+c=1 , then the greatest value of (1-a)(1-b)(1-c), is

If a, b, c are positive real numbers such that a + b + c = 1 , then prove that a/(b + c)+b/(c+a) + c/(a+b) >= 3/2

If a, b, c are distinct positive real numbers such that a+(1)/(b)=4,b+(1)/( c )=1,c+(1)/(d)=4 and d+(1)/(a)=1 , then

If a,b,c are unequal and positive then show that (bc)/(b+c)+(ca)/(c+a)+(ab)/(a+b)<1/2(a+b+c)

If a, b, c, are positive real numbers and log_(4) a=log_(6)b=log_(9) (a+b) , then b/a equals

If a,b and c are positive real number then (a)/(b) + (b)/(c) + (c)/(a) is greater than or equal to

If a,b,c are positive real numbers such that a + b +c=18, find the maximum value of a^2b^3c^4

If a, b and c are positive real numbers such that aleblec, then (a^(2)+b^(2)+c^(2))/(a+b+c) lies in the interval

Let a, b and c be positive real numbers. Then prove that tan^(-1) sqrt((a(a + b + c))/(bc)) + tan^(-1) sqrt((b (a + b + c))/(ca)) + tan^(-1) sqrt((c(a + b+ c))/(ab)) =' pi'