If `v-(A)/(t)+Bt^(2)+Ct^(3)` where v is velocity, t is time and A, B and C are constants, then the dimensional formula of B is

If pressure can be expressed as P=(b)/(a)sqrt(1+(kthetat^(3))/(ma)) where k is the Boltzmann's constant, theta is the temperature, t is the time and a and b are constants, then dimensional formula of b is equal to the dimensional formula of

If x= a+bt+ ct^(2) , where x is in metre and t is in second , what is the dimensional formula of c?

The energy E of a particle at position x at time t is given by E=a/(t(b+x^(2)) Where a and b are constants. The dimensional formula of a is

If eneryg E , velocity v and time t are taken t are taken as the fundamental units, what is the dimensional formula of intensity of radiation ?

Force on a particle in one-dimensional motion is given by F=Av+Bt+(Cx)/(At+D) , where F= force, v= speed, t= time, x= position and A, B, C and D are constants. Dimension of C will be-

Force on a particle in one-dimensional motion is given by F=Av+Bt+(Cx)/(At+D) , where F= force, v= speed, t= time, x= position and A, B, C and D are constants. Dimension of C will be-

Force on a particle in one-dimensional motion is given by F=Av+Bt+(Cx)/(At+D) , where F= force, v= speed, t= time, x= position and A, B, C and D are constants. Dimension of C will be-

The displacement of a particle moving in a straight line Is given by the expression x = At^(3) + Bt^(2) + Ct + D meters, where t is in seconds and A, B, C and D are constants. The ratio between the initial acceleration and initial velocity is