The oxidation of certain metal is found to obey the equation `A^(2) =alphat+beta`, where `A` is the thickness of the oxide film at time `t, alpha` and `beta` are constants. What is the order of this reaction?

The relation between time t and displacement x is t = alpha x^2 + beta x, where alpha and beta are constants. The retardation is

The energy E of a particle varies with time t according to the equation E=E_0sin(alphat).e^((-alphat)/(betax)) , where x is displacement from mean position E_0 is energy at infinite position and alpha and beta are constants . Dimensions of beta are

The energy E of a particle varies with time t according to the equation E=E_0sin(alphat).e^((-alphat)/(betax)) , where x is displacement from mean position E_0 is energy at infinite position and alpha and beta are constants . Dimensions of sin((alphat)/(betax)) are

The force of interaction between two atoms is given by F= alpha beta exp(-(x^2)/(alphakt)) , where x is the distance ,k is the Boltzmann constant and T is temperature and alpha " and " beta are two constans. The dimension of beta is :

The energy E of a particle varies with time t according to the equation E=E_0sin(alphat).e^((-alphat)/(betax)) , where x is displacement from mean position E_0 is energy at infinite position and alpha and beta are constants . Dimensional formula of alpha is

Find the dimensions of alpha//beta in equation P=(alpha-t^2)/(betax) where P= pressure, x is distance and t is time.

What will be the quadratic equation if alpha=2,beta=5 .