X mole of KCl and Y mole of `BaCl_(2)` are dissolved in 1kg of water. Given (x+y)=0.1 and `K_(f)=1.85 "kmolal^(-1)`, what is the observed range of `Delta T_(f)` If the ratio of x to y is varied

If f:A rarrR is defined as f(x)=x^(3)+1 and A={1, 2, -1, -2, 0} then the range of f is

Mixture 'X' containing 0.02 mole of [Co(NH_(3))_(5)SO_(4)]Br and 0.02 mole of [Co(NH_(3))_(5)Br]SO_(4) was dissolved in water to get 2 lit of solution. If 1 lit of X+ execss AgNO_(3)toY mole of ppt. and 1 lit of X+ excess BaCl_(2)toZ mole of ppt. Number of mole of Y and Z are

The point whose coordinates are x=x_(1)+t(x_(2)-x_(1)), y=y_(1)+t(y_(2)-y_(1)) divides the join of (x, y) and (x_(2), y_(2)) in the ratio

I_1 of an element X is 899 kJ "mole"^(-1) and that of another element Y is 801kJ mole-1. Then X and Y may be

If f(x) satisfies the relation f(x+ y) = f ( x) + f( y ) for all x, y in R and f(1) = 5 then

If f(x) is a function such that f(xy)=f(x)+f(y) and f(2)=1 then f(x)=

Find the area of the triangle formed by the tangent at P(x_(1), y_(1)) to the circle x^(2) +y^(2) = a^(2) with co-ordinate axes where x_(1), y_(1) ne 0 .