Statement I: L/R and CR both have the same dimensions.
Statement II: L/R and CR both have the dimension of time.

Show that (dphi)/(dt) and V have the same dimension.

Show the dimension of L/R is equal to the dimension of time.

If two physical quantities a and b are related by the equation a= kb where k is dimensionless constant, then the principle of dimensional homogeneity demands that a and b have the same dimension. However the proportionality constant k cannot be determined by dimensional analysis only. It may at most be written that a prop b if a and b are of the same dimension. A coil of inductance L stores an amount of energy (1)/(2)Ll^(2) when a current I passes through it. The dimension of L is

If force (F)', length (L) and Time (T) be the fundamental dimensions than the dimension of mass will be--------__.

These questions have statement I and statement II. Of the four choices given below, choose the one that best describes the two statements. Statement I: It is obvious that dimensions of all the terms must be the same in any mathematical relation between physical quantities. Statement II: Dimensions of a physical quantity are the powers to which the fundamental units should be raised to represent the unit of that physical quantity.

Statement I: During the propagation of visible light and X-rays as electromagnetic waves, X-rays carry more energy than visible light despite both of them have same amplitudes of electric fields at a point. Statement II: The frequency of X-rays is much higher than that of visible light. (A) Statement I is true, statement II is true, statement II is a correct explanation for statement I. (B) Statement I is true, statement II is true, statement II is not a correct explanation for statement I. (C) Statement I is true, statement II is false. (D) Statement I is false, statement II is true.