If O (origin) is a point inside the triangle PQR such that `vec(OP)+k_(1)vec(OQ)+k_(2)vec(OR)=0`, where `k_(1), k_(2)` are constants such that `("Area"(DeltaPQR))/("Area"(DeltaOQR))=4`, then the value of `k_(1)+k_(2)` is :

Let B_1,C_1 and D_1 are points on AB,AC and AD of the parallelogram ABCD, such that vec(AB_1)=k_1vec(AC,) vec(AC_1)=k_2vec(AC) and vec(AD_1)=k_2 vec(AD,) where k_1,k_2 and k_3 are scalar.

Two sides of a triangle is represented by vec(a) = 3hat(j) and vec(b) = 2hat(i) - hat(k) . The area of triangle is :

If |vec(a)|=4 and -3 lek le2 , then the range of | k vec(a) | is

Let A and B be two fixed points and P , another point in the plane, moves in such a way that k_(1)PA+k_(2)PB=k_(3) , where k_(1) , k_(2) and k_(3) are real constants. The locus of P is Which one of the above is not true ?

If k_(1) and k_(2) ( k_(1) gt k_(2) ) are two non-zero integral values of k for which the cubic equation x^(3)+3x^(2)+k=0 has all integer roots, then the value of k_(1)-k_(2) is equal to_______

Two springs have their force constant as k_(1) and k_(2) (k_(1) gt k_(2)) . When they are streched by the same force.

The order of the differential equation of the family of curves y=k_(1)2^(k_(2)x)+k_(3)3^(x+k_(4)) is (where, k_(1),k_(2), k_(3), k_(4) are arbitrary constants)

Find the values of k if area of triangle is 9 sq. units and vertices are: (-2,0),(0,4)(0,k)

A spring whose instretched length is l has a force constant k . The spring is cut into two pieces of unstretched lengths l_(1) and l_(2) where, l_(1) =nl_(2) and n is an integer. The ratio k_(1)//k_(2) of the corresponding force constant, k_(1) and k_(2) will be :

Two springs have their force constant as K_(1) and K_(2)(K_(1)lt K_(2)) . When they are stretched by the same force: