NEET Physics MCQ: NCERT Unit Conversion

🎯Topic:Conversion Of Units For One System To Another

🎓 Ncert Level:Remembering

🎯Difficulty :Easy

⚡ Time Required :1 mins

🔄Ncert Concepts :Unit Conversion, Mass

Related Questions

$\left[ {M{L^2}{T^{ - 3}}} \right]$ is the dimension of

Work

Power

Force

Momentum

Question Tags

🎯Topic:Conversion Of Units For One System To Another

🔄Ncert Concepts :Dimensional Analysis, Power, Work, Force, Momentum

$\left[ {{\rm{M}}{{\rm{L}}^{ - 2}}{{\rm{T}}^{ - 2}}} \right]$ represents dimensional formula of which of the following physical quantities?

Energy

pressure

Torque

Pressure gradient

Question Tags

🎯Topic:Conversion Of Units For One System To Another

🔄Ncert Concepts :Dimensional Analysis, Pressure, Pressure Gradient, Energy, Torque

Inductance L can be dimensionally represented as

$M{L^2}{T^{ - 2}}{A^{ - 2}}$

$M{L^2}{T^{ - 4}}{A^{ - 3}}$

$M{L^{ - 2}}{T^{ - 2}}{A^{ - 2}}$

$M{L^2}{T^4}{A^3}$

Question Tags

🎯Topic:Conversion Of Units For One System To Another

🔄Ncert Concepts :Inductance, Dimensional Analysis

Dimensional formula of Stefan’s constant is

$M{T^{ - 3}}{K^{ - 4}}$

$M{L^2}{T^{ - 2}}{K^{ - 4}}$

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

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

Question Tags

🎯Topic:Conversion Of Units For One System To Another

🔄Ncert Concepts :Stefan-Boltzmann Law, Dimensional Analysis

If C be the capacitance and V be the electric potential, then the dimensional formula of $C{V^2}$ is

$\left[ {{\rm{M}}{{\rm{L}}^{ - 3}}{\rm{TA}}} \right]$

$\left[ {{{\rm{K}}^0}{\rm{L}}{{\rm{T}}^{ - 2}}{{\rm{A}}^0}} \right]$

$\left[ {{\rm{M}}{{\rm{L}}^1}{{\rm{T}}^{ - 2}}{{\rm{A}}^{ - 1}}} \right]$

$\left[ {{\rm{M}}{{\rm{L}}^2}{{\rm{T}}^{ - 2}}{{\rm{A}}^0}} \right]$

Question Tags

🎯Topic:Conversion Of Units For One System To Another

⚡ Time Required :3 mins

🔄Ncert Concepts :Capacitance, Electric Potential, Dimensional Analysis, Energy

Dimensions of ohm are same as (h-Planck’s constant, e-charge)

h/e

${h^2}/e$

$h/{e^2}$

${h^2}{e^2}$

Question Tags

🎯Topic:Conversion Of Units For One System To Another

🎓 Ncert Level:Analyzing

⚡ Time Required :3 mins

🔄Ncert Concepts :Ohm's Law, Planck's constant, Charge, Dimensional Analysis

The dimensional formula for impulse is

$\left[ {{\rm{ML}}{{\rm{T}}^{ - 1}}} \right]$

$\left[ {{\rm{M}}{{\rm{L}}^{ - 1}}{\rm{T}}} \right]$

$\left[ {{{\rm{M}}^{ - 1}}{\rm{L}}{{\rm{T}}^{ - 1}}} \right]$

$\left[ {{\rm{M}}{{\rm{L}}^{ - 1}}{{\rm{T}}^{ - 1}}} \right]$

Question Tags

🎯Topic:Conversion Of Units For One System To Another

🔄Ncert Concepts :Impulse, Dimensional Analysis, Force, Time

Dimensional formula of heat energy is

[MLT⁻²]

[ML²T⁻²]

[MLT⁻¹]

[ML²T⁻³]

Question Tags

🎯Topic:Conversion Of Units For One System To Another

🎓 Ncert Level:Remembering

⚡ Time Required :1 mins

🔄Ncert Concepts :Dimensional analysis, Heat energy

Dimensional formula for torque is

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

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

${L^2}M{T^{ - 3}}$

$LM{T^{ - 2}}$

Question Tags

🎯Topic:Conversion Of Units For One System To Another

🔄Ncert Concepts :torque, dimensional analysis

10.

The unit of expression ${{\rm{\mu }}_0}{{\rm{\varepsilon }}_0}$ are

${\rm{m}}{{\rm{s}}^{ - 1}}$

${{\rm{m}}^2}{{\rm{s}}^{ - 2}}$

${{\rm{s}}^2}{{\rm{m}}^{ - 2}}$

${\rm{s}}{{\rm{m}}^{ - 1}}$

Question Tags

🎯Topic:Conversion Of Units For One System To Another

🎯Difficulty :Easy