Match List-I and List-II: List-I List | vedclass

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(D) $1$. Young's Modulus $(Y) = \frac{	ext{Stress}}{	ext{Strain}} = \frac{F/A}{\Delta L/L} = \frac{[MLT^{-2}]}{[L^2]} = [ML^{-1}T^{-2}]$. Thus,$A-II

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$A-III, B-I, C-II, D-IV$

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(D) $1$. Young's Modulus $(Y) = \frac{	ext{Stress}}{	ext{Strain}} = \frac{F/A}{\Delta L/L} = \frac{[MLT^{-2}]}{[L^2]} = [ML^{-1}T^{-2}]$. Thus,$A-III$.$2$. Co-efficient of Viscosity $(\eta)$: From Stokes' Law,$F = 6\pi\eta rv$,so $\eta = \frac{F}{6\pi rv} = \frac{[MLT^{-2}]}{[L][LT^{-1}]} = [ML^{-1}T^{-1}]$. Thus,$B-I$.$3$. Planck's Constant $(h)$: From $E = hf$,$h = \frac{E}{f} = \frac{[ML^2T^{-2}]}{[T^{-1}]} = [ML^2T^{-1}]$. Thus,$C-II$.$4$. Work Function $(\varphi)$: It is a form of energy,so $[\varphi] = [ML^2T^{-2}]$. Thus,$D-IV$.Therefore,the correct matching is $A-III, B-I, C-II, D-IV$.

List-$I$	List-$II$
$A$. Young's Modulus $(Y)$	$I$. $[M L^{-1} T^{-1}]$
$B$. Co-efficient of Viscosity $(\eta)$	$II$. $[M L^2 T^{-1}]$
$C$. Planck's Constant $(h)$	$III$. $[M L^{-1} T^{-2}]$
$D$. Work Function $(\varphi)$	$IV$. $[M L^2 T^{-2}]$

List-$I$	List-$II$
$(A)$ Coefficient of viscosity	$(I)$ $[ML^0T^{-3}]$
$(B)$ Intensity of wave	$(II)$ $[ML^{-2}T^{-2}]$
$(C)$ Pressure gradient	$(III)$ $[M^{-1}LT^2]$
$(D)$ Compressibility	$(IV)$ $[ML^{-1}T^{-1}]$

Similar Questions

Match List-$I$ with List-$II$.
List-$I$ List-$II$
$(A)$ Coefficient of viscosity $(I)$ $[ML^0T^{-3}]$
$(B)$ Intensity of wave $(II)$ $[ML^{-2}T^{-2}]$
$(C)$ Pressure gradient $(III)$ $[M^{-1}LT^2]$
$(D)$ Compressibility $(IV)$ $[ML^{-1}T^{-1}]$
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