Consider the equations
`P=Lim_(/_\srarr0)F/(/_\S) and P_1-P_2=rhogz`
In an elevator acceleratin upward

Consider the equation p = 5-2q - 3 Greatest sat of all possible values of p for q in R is

Consider two points P_1(2,7) and P_2(6,15) . Write the equation and draw a straight line through these points.

Consider the equation p = 5-2q - 3 If p = |r| + 5 , then number of possible ordered pair (r,q) is, are

Consider the equation p = 5-2q - 3 If p = 4 then possible values of q are

In R^(3) , consider the planes P_(1):y=0 and P_(2),x+z=1. Let P_(3) be a plane, different from P_(1) and P_(2) which passes through the intersection of P_(1) and P_(2) , If the distance of the point (0,1,0) from P_(3) is 1 and the distance of a point (alpha,beta,gamma) from P_(3) is 2, then which of the following relation(s) is/are true?

A container having two immiscible liquids of densities 'p' and '2p' moves with an upward acceleration a=g The values of P_(Q)-P_(0) is (where P_(0) = atmospheric pressure)

In the derivation of P_1-P_2=rhogz it was asumed that the liquid is incompressible. Why will this equation not be stictly valid for a compressible liquid?

If p _(1) =0 and p _(2) =0 be two non-parallel planes, then the equation p_(1) + lamda p _(2) =0, lamda in R represents the family of all planes through the line of intersection of the planes p _(1) =0 and p _(2) =0 except the plane :

If p, q, r are in G.P. and the equations, p x^2+2q x+r=0 and dx^2+2e x+f=0 have a common root, then show that d/p , e/q , f/r are in A.P.

Consider two intersecting (non-perpendicular lines L_(1)=0 and L_(2)=0 and a point P_(1) . Image of P_(1) and L_(1)=0 is P_(2) , image of P_(2) in L_(2)=0 is P_(3) , image of P_(3) in L_(1) =0 is P_(4) and so on. Which of the following statements are incorrect ?