Consider the following two equations
`(A). vecR=1/M sum_im_ivecr_i`
`and (B). veca_(CM)= (vecF)/(M)`
IN a noninertial frame

Consider the following statements PV_(m)=RT(1+(\B)/(V_(m))+(B)/(V_(m)^(2))+...) Then V_(m) .

Consider the following relation R on the set of realsquare matrices of order 3. R = {(A, B)| A = P^-1 BP for some invertible matrix P} Statement I R is an equivalence relation. Statement II For any two invertible 3xx3 matrices M and N, (MN)^-1 = N^-1 M^-1

Consider three vectors veca, vecb and vecc . Vectors veca and vecb are unit vectors having an angle theta between them For vector veca, |veca|^2=veca.veca If veca_|_vecb and veca_|_vecc then veca||vecbxxvecc If veca||vecb, then veca=tvecb Now answer the following question: If vecc is a unit vector and equal to the sum of veca and vecb the magnitude of difference between veca and vecb is (A) 1 (B) sqrt(2) (C) sqrt(3) (D) 1/sqrt(2)

Solve the following quadratic equations equation by using formula. (i) m^2-14m+13=0 .

Consider following solutions: (I) I M glucose(aq) (II) 1 M sodium choride(aq) (III) 1 M acetic acid in benzene (IV) 1 M ammonium phosphate (aq)

When we analyse the projectile motion from any accelerated frame O as vecr_(o),vecu_(o) and veca_(o) respectively, express the following terms, vecr_(pO)+veca_(p)-vecr_(O),vecu_(pO)=vecu_(p)-vecu_(O) and veca_(pO)=veca_(p)-veca_(O) where P stands for projectile. Then using the following kinematical equations of the projectile (For constant acceleration) relative to the accelerating frame ,we have vecS_(pO)=vecu_(pO)t+1/2veca_(pO)t^(2),vecv_(pO) =vecu_(pO)+veca_(pO)t and v_(pO)^(2)=u_(pO)^(2)+2veca.vecs_pO Using the above expressions, anwer the following question:A projectile has initial velocity v_(0) realtive to the large plate which is moving with a constant upward acceleration a. Refering to Q.1, velocity of the projectile relative to B ofter some time

When we analyse the projectile motion from any accelerated frame O as vecr_(o),vecu_(o) and veca_(o) respectively, express the following terms, vecr_(pO)+veca_(p)-vecr_(O),vecu_(pO)=vecu_(p)-vecu_(O) and veca_(pO)=veca_(p)-veca_(O) where P stands for projectile. Then using the following kinematical equations of the projectile (For constant acceleration) relative to the accelerating frame ,we have vecS_(pO)=vecu_(pO)t+1/2veca_(pO)t^(2),vecv_(pO) =vecu_(pO)+veca_(pO)t and v_(pO)^(2)=u_(pO)^(2)+2veca.vecs_pO Using the above expressions, anwer the following question:A projectile has initial velocity v_(0) realtive to the large plate which is moving with a constant upward acceleration a. Which of the following remains equal for the observers A and B ?