The positive solutions of the equation is `ax+by+c=0` always lie in the

If the (4,19) is a solution of the equations y=ax+3 then a=

Number of positive unequal integral solutions of the equation x+y+z=12 is

If alpha, beta be the roots of the equation ax^2 + bx + c= 0 and gamma, delta those of equation lx^2 + mx + n = 0 ,then find the equation whose roots are alphagamma+betadelta and alphadelta+betagamma

If the roots of the equation ax^(2)+bx+c=0(a!=0) be alpha and beta and those of the equation Ax^(2)+Bx+C=0(A!=0) be alpha+k and beta+k .Prove that (b^(2)-4ac)/(B^(2)-4AC)=(a/A)^(2)

If both roots of the equation x^2-2ax + a^2-1=0 lie between (-2,2) then a lies in the interval

If points A, B, C lie on the same line, also points C, D, E lie on the same line, Do the points A, B, C, D, E always lie on the same line?

Maximum number of real solution for the equation ax^(n)+x^(2)+bx+c=0,"where "a,b,c in R and n is an even positive number, is

The straight line through the point of intersection of ax + by+c=0 and a'x+b'y+c'= 0 are parallel to the y-axis has the equation

If 0 lt a lt b lt c and the roots alpha,beta of the equation ax^2 + bx + c = 0 are non-real complex numbers, then