Download App
Let $[{\varepsilon _0}]$ denotes the dimensional formula of the permittivity of the vacuum and $[{\mu _0}]$ that of the permeability of the vacuum. If $M = {\rm{mass}}$, $L = {\rm{length}}$, $T = {\rm{Time}}$ and $I = {\rm{electric current}}$, then
  • A$[{\varepsilon _0}] = {M^{ - 1}}{L^{ - 3}}{T^2}I$
  • B$[{\varepsilon _0}] = {M^{ - 1}}{L^{ - 3}}{T^4}{I^2}$
  • C$[{\mu _0}] = M{L^2}{T^{ - 1}}I$
  • D
    None of these
IIT 1998, Medium
art

Download our app
and get started for free

Experience the future of education. Simply download our apps or reach out to us for more information. Let's shape the future of learning together!No signup needed.*
Download App

Similar Questions

  • 1
    A physical parameter a can be determined by measuring the parameters $b, c, d $ and $e $ using the relation $a =$ ${b^\alpha }{c^\beta }/{d^\gamma }{e^\delta }$. If the maximum errors in the measurement of $b, c, d$ and e are ${b_1}\%$, ${c_1}\%$, ${d_1}\%$ and ${e_1}\%$, then the maximum error in the value of a determined by the experiment is
    View Solution
  • 2
    $N$ divisions on the main scale of a vernier calliper coincide with $(N + 1 )$ divisions of the vernier scale. If each division of main scale is $a$ units , then the least count of the instrument is
    View Solution
  • 3
    The units of modulus of rigidity are
    View Solution
  • 4
    Some physical quantities are given in Column $I$ and some possible $SI$ units in which these quantities may be expressed are given in Column $II$. Match the physical quantities in Column $I$ with the units in Column $II$ and indicate your answer by darkening appropriate bubbles in the $4 \times 4$ matrix given in the $ORS$.

    Column $I$ Column $II$

    $(A)$ $\mathrm{GM}_e \mathrm{M}_5$

    $\mathrm{G} \rightarrow$ universal gravitational constant, $\mathrm{M}_{\mathrm{e}} \rightarrow$ mass of the earth,

    $\mathrm{M}_5 \rightarrow$ mass of the Sun

    		 $(p)$ (volt) (coulomb) (metre)

    $(B)$ $\frac{3 \mathrm{RT}}{\mathrm{M}} ; \mathrm{R} \rightarrow$ universal gas constant, $\mathrm{T} \rightarrow$ absolute temperature,

    $\mathrm{M} \rightarrow$ molar mass

    		 $(q)$ (kilogram) $(\text { metre) })^3$ (second) $)^{-2}$
    $(C)$ $\frac{F^2}{q^2 B^2}$ ;$\quad F \rightarrow$ force, $q \rightarrow$ charge, $B \rightarrow$ magnetic field  $(r)$ $(\text { meter })^2$ (second) $)^{-2}$

    $(D)$ $\frac{\mathrm{GM}_e}{\mathrm{R}_{\mathrm{e}}}, G \rightarrow$ universal gravitational constant,

    $\mathrm{M}_{\mathrm{e}} \rightarrow$ mass of the earth, $\mathrm{R}_{\mathrm{e}} \rightarrow$ radius of the earth

    		 $(s)$ (farad) $(\text { volt) })^2(\mathrm{~kg})^{-1}$
    View Solution
  • 5
    The length, breath and thickness of a metal sheet are $4.234 \;m , 1.005\; m$, and $2.01\; cm$ respectively then the volume of the sheet is
    View Solution
  • 6
    If $R , X _{ L }$. and $X _{ C }$ represent resistance, inductive reactance and capacitive reactance. Then which of the following is dimensionless:
    View Solution
  • 7
    The dimension of stopping potential $\mathrm{V}_{0}$ in photoelectric effect in units of Planck's constant $h$, speed of light $c$ and Gravitational constant $G$ and ampere $A$ is
    View Solution
  • 8
    Using screw gauge of pitch $0.1$ $cm$ and $50$ divisions on its circular scale, the thickness of an object is measured. It should correctly be recorded as 
    View Solution
  • 9
    $10\; amu =$ ……..$kg$
    View Solution
  • 10
    The relative error in the determination of the surface area of a sphere is $\alpha $. Then the relative error in the determination of its volume is
    View Solution