Distance Z travelled by a particle is defined by ` Z=alpha +betat + gammat^(2)`. Dimensions of `gamma` are

Velocity of a particle at time t is expressed as follows : v= alpha t+(beta)/(t +gamma) Dimensions of alpha, beta " and "gamma are respectively.

(a) The displacement s of a particale in time t related as s = alpha + beta t + gamma t^(2) + delta t^(2) (b) The veloctiy v of particle varies with time as v = alpha t + beta t^(2) + (gamma )/(t + s) Findk the dimension fo alpha, beta, gamma and delta .

alpha -particles and gamma -rays .

The displacement of a partical as a function of time t is given by s=alpha+betat+gammat^(2)+deltat^(4) , where alpha , beta , gamma and delta are constants. Find the ratio of the initial velocity to the initial acceleration.

Distance of the point (alpha, beta, gamma) , from z-axis is

Kinetic energy of a particle moving along elliptical trajectory is given by K=alpha s^(2) where s is the distance travelled by the particle. Determine dimensions of alpha

The three angular points of a triangle are given by Z=alpha, Z=beta,Z=gamma,w h e r ealpha,beta,gamma are complex numbers, then prove that the perpendicular from the angular point Z=alpha to the opposite side is given by the equation R e((Z-alpha)/(beta-gamma))=0

The equation of the plane which makes with coordinate axes a triangle with its centroid (alpha, beta, gamma) is (A) alphax+betay+gammaz=3 (B) x/alpha+y/gamma+z/gamma=1 (C) alphax+betay+gammaz=1 (D) x/alpha+y/beta+z/gamma=3