MCQ Questions for Class 11 Engineering Physics Units And Measurement Quiz 3

If $$C$$ denotes the capacity and $$L$$ denotes the inductance, the dimensions of '$$LC$$' are :

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$${ M }^{ 0 }{ L }^{ 0 }{ T }^{ 2 }$$
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$${ M }^{ 1 }{ L }^{ 0 }{ T }^{ 2 }$$
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$${ M }^{ 1 }{ L }^{ 1 }{ T }^{ -2 }$$
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$${ M }^{ 0 }{ L }^{ 1 }{ T }^{ 2 }$$

The dimensional formula for strain is same as that of

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thrust
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angle
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modulus of elasticity
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stress

The dimensions of the coefficient of viscosity are :

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$$ ML^{-1}T^{-1} $$
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$$ MLT $$
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$$ M^{-1}L^{-1}T^{-1} $$
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$$ M^0L^0T^0 $$

The division of energy by time is $$X$$. The dimensional formula of $$X$$ is same as that of

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momentum
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power
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torque
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electric field

An athlete's coach told him that muscle times speed equals power.
Then according to him the dimensions of muscle are

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$$ [MLT^{-2}] $$
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$$ [ML^2T^{-2}] $$
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$$ [MLT^{+2}] $$
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$$[MLT^{-3}]$$

A quantity $$X$$ is given by $$\epsilon_0 L\dfrac {\Delta V}{\Delta t}$$, where $$\epsilon_0$$ is the permittivity of fee space, $$L$$ is length, $$\Delta V$$ is a potential difference and $$\Delta t$$ is a time interval. The dimensional formula for $$X$$ is the same as that of

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resistance
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charge
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voltage
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current

The correct statement about Poisson's ratio is:

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Its unit is $$ N/m^2 $$
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It is dimensionless
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Its unit is Newton
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Its dimensions are $$ MLT^{-2} $$

The dimensions of quantity $$ \dfrac{1}{\mu_0} (\vec{E} \times \vec{B})$$ are:

$$ [\mu_0= $$ permeability of free space, $$ \displaystyle E^1= $$ electric field strength, $$ \displaystyle B^1=$$ magnetic field induction $$] $$

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$$ [MT^{-3}] $$
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$$ [ML^2T^{-3}] $$
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$$ [ML^{-1}T^{-1}] $$
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$$ [MT^{-3}A^2] $$

The dimensional formula of latent heat is identical to that of

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internal energy
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angular momentum
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gravitational potential
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electric potential

The dimensional formula of $$\dfrac {L}{R}$$ is same as that of (where $$L$$ is inductance and $$R$$ is resistance)

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(frequency)$$^2$$
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time period
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frequency
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(time period)$$^2$$

Which of the following combinations has dimensions?

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$$ \dfrac{rpv}{\eta} $$
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$$ \mu_0\in_0c^2 $$
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$$ \dfrac{t}{RC} $$
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$$ \dfrac{\sigma}{\lambda_mT} $$

How many significant figures are there in $$0.030100\times 10^6$$?

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1
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3
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5
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7

The dimensional formula for relative density is

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$$[ML^{-3}]$$
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$$[M^0L^{-3}]$$
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$$[M^0L^0T^{-1}]$$
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$$[M^0L^0T^0]$$

The ratio of the dimensions of Planck's constant and that of the moment of intertia is the dimensions of

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time
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frequency
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angular momentum
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velocity

Which of the following is a dimensional constant?

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Refractive index
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Dielectric constant
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Relative density
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Gravitational constant

The dimension of length for coefficient of viscosity is

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-1
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+1
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-2
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+2

Place the odd unit out.

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kilowatt hour
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joule second
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watt second
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electron volt

$$\sqrt {\mu_0\epsilon_0}$$ has the dimensions

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$$[M^0LT^{-1}]$$
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$$[M^0L^{-1}T]$$
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$$[M^2L^3T^{-1}]$$
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$$[M^{-1}L^3T^{-2}]$$

Which is most accurate?

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3 m
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3.0 m
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3.00 m
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3.000 m

How many significant figures are there in 30100?

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1
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3
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5
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none of these

Which of the following have the same dimensions?

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impulse and momentum
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specific heat and latent heat
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moment of inertia and force
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thrust and surface tension

Dimensions of $$\dfrac {1}{\mu_o\epsilon_o}$$, where symbols have their usual meaning, are

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$$[L^{-1}T]$$
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$$[L^{-2}T^{2}]$$
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$$[L^{2}T^{-2}]$$
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$$[LT^{-1}]$$

The dimensions of electromotive force in terms of current A are

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$$[MT^{-2}A^{-2}]$$
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$$[ML^{2}T^{-2}A^2]$$
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$$[ML^{2}T^{-2}A^{-2}]$$
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$$[ML^{2}T^{-3}A^{-1}]$$

The dimensions of pressure gradient are

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$$[ML^{-2}T^{-2}]$$
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$$[ML^{-2}T^{-1}]$$
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$$[ML^{-1}T^{-1}]$$
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$$[ML^{-1}T^{-2}]$$

The dimensions of universal gas constant are

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$$[L^2M^1T^{-2}K^{-1}]$$
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$$[L^1M^2T^{-2}K^{-1}]$$
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$$[L^1M^1T^{-2}K^{-1}]$$
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$$[L^2M^2T^{-2}K^{-1}]$$

Dimensions of impulse are

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$$[MLT^{-1}]$$
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$$[MLT^{2}]$$
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$$[MT^{-2}]$$
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$$[ML^{-1}T^{-3}]$$

Which of the following set have different dimensions?

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Pressure, Young's modulus, Stress
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Emf, Potential difference, Electric potential
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Heat, Work done, Energy
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Electric dipole moment, Electric flux, Electric field

Which one of the following represents the correct dimensions of the coefficient of viscosity?

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$$[ML^{-1}T^{-1}]$$
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$$[MLT^{-1}]$$
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$$[ML^{-1}T^{-2}]$$
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$$[ML^{-2}T^{-2}]$$

Which of these is dimensionless?

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Force$$/$$acceleration
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Velocity$$/$$acceleration
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Volume$$/$$area
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Energy$$/$$work

The dimensions of Rydberg's constant are

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$$[M^0L^{-1}T]$$
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$$[MLT^{-1}]$$
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$$[M^0L^{-1}T^0]$$
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$$[ML^0T^2]$$

Identify the pair whose dimensions are equal.

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Torque and work
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Stress and energy
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Force and stress
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Force and work

If $$L$$ denotes the inductance of an inductor through which a current $$i$$ is flowing, the dimensions of $$Li^2$$ are

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$$[ML^2T^{-2}]$$
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$$[MLT^{-2}]$$
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$$[M^2L^2T^{-2}]$$
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not expressible in $$M, L, T$$

The dimensions of Hubble's constant are

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$$[T^{-1}]$$
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$$[M^0L^0T^{-2}]$$
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$$[MLT^4]$$
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$$[MT^{-1}]$$

$$[ML^2T^{-2}]$$ are dimensions of

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force
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moment of force
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momentum
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power

The dimensions of magnetic moment are

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$$[L^2A^1]$$
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$$[L^2A^{-1}]$$
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$$[L^2/A^3]$$
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$$[LA^2]$$

The unit and dimensions of impedance in terms of charge Q are

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$$mho, [ML^2T^{-2}Q^{-2}]$$
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$$ohm, [ML^2T^{-1}Q^{-2}]$$
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$$ohm, [ML^2T^{-2}Q^{-1}]$$
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$$ohm, [MLT^{-1}Q^{-1}]$$

If $$L$$ and $$R$$ denote inductance and resistance then dimension of $$L/R$$ is

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$$[M^0L^0T^0]$$
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$$[M^0L^0T]$$
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$$[M^2L^0T^2]$$
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$$[MLT^2]$$

The dimensional formula of current density is

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$$[M^0L^{-2}T^{-1}Q]$$
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$$[M^0L^{2}T^{1}Q^{-1}]$$
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$$[MLT^{-1}Q]$$
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$$[ML^{-2}T^{-1}Q^2]$$

The dimensional formula for relative refractive index is

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$$[M^0L^1T^{-1}]$$
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$$[M^0L^0T^0]$$
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$$[M^0L^1T^{1}]$$
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$$[MLT^{-1}]$$

The dimensions of Wien's constant are

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$$[ML^0TK]$$
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$$[M^0LT^0K]$$
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$$[M^0L^0TK]$$
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$$[MLTK]$$4

Which physical quantities have same dimensions?

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Moment of couple and work
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Force and power
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Latent heat and specific heat
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Work and power

The dimensional formula of couple is

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$$[ML^{2}T^{-2}]$$
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$$[MLT^{-2}]$$
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$$[ML^{-1}T^{-3}]$$
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$$[ML^{-2}T^{-2}]$$

The dimensional formula of arial velocity is

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$$[M^0L^{-2}T^{1}]$$
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$$[M^0L^{-2}T^{-1}]$$
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$$[M^0L^{2}T^{-1}]$$
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$$[M^0L^{2}T^{1}]$$

If $$I$$ is the moment of inertia and $$\omega$$ the angular velocity, what is the dimensional formula of rotational kinetic energy, $$\dfrac {1}{2}I\omega^2$$?

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$$[ML^{2}T^{-1}]$$
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$$[M^2L^{-1}T^{-2}]$$
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$$[ML^{2}T^{-2}]$$
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$$[M^2L^{-1}T^{-1}]$$

Which of the following is the unit of molar gas constant?

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$$JK^{-1} mol^{-1}$$
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$$J$$
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$$JK^{-1}$$
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$$Jmol^{-1}$$

The dimensional formula of velocity gradient is

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$$[M^0L^0T^{-1}]$$
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$$[MLT^{-1}]$$
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$$[ML^0T^{-1}]$$
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$$[M^0LT^{-2}]$$

Dimensions of '$$ohm$$' are same as (where $$h$$ is Planck's constant and $$e$$ is charge)

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$$\dfrac {h}{e}$$
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$$\dfrac {h^2}{e}$$
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$$\dfrac {h}{e^2}$$
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$$\dfrac {h^2}{e^2}$$

If $$C$$ and $$L$$ denote the capacitance and inductance, the dimensions of $$LC$$ are

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$$[M^0L^0T^{-1}]$$
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$$[M^0L^{-1}T^0]$$
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$$[M^{-1}L^{-1}T^0]$$
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$$[M^0L^0T^{2}]$$

If $$I$$ is regarded as the fourth dimension, then the dimensional formula of charge in terms of current $$I$$ is

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$$[IT^2]$$
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$$[I^0T^0]$$
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$$[I^{-1}T^0]$$
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$$[IT]$$

Specific gravity has ___ dimensions in mass, ___ dimensions in length and ___ dimensions in time.

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0, 0, 0
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0, 1, 0
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1, 0, 0
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1, 1, 3

CBSE Questions for Class 11 Engineering Physics Units And Measurement Quiz 3 - MCQExams.com

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Practice Class 11 Engineering Physics Quiz Questions and Answers

CBSE Questions for Class 11 Engineering Physics Units And Measurement Quiz 3 - MCQExams.com

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Practice Class 11 Engineering Physics Quiz Questions and Answers

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