The normal density of a material is rho and its bulk modulus of elasticity is K. The magnitude of increase in density of material, when

Q: The normal density of a material is $\rho$ and its bulk modulus of elasticity is $K$. The magnitude of increase in density of material, when a pressure $P$ is applied uniformly on all sides, will be

b $\rho=\frac{M}{V}$ $\frac{ d \rho}{\rho}=-\frac{ dV }{ V }$ $K=-\frac{ P }{\frac{ d V }{ V }}$ $-\frac{ d V }{ V }=\frac{ P }{K}$ $\frac{ d \rho}{\rho}=\frac{ P }{ K } \Rightarrow d \rho=\frac{\rho P }{ K}$

SECTION - A [PHYSICS - MCQ]

GSEB - English Medium

The normal density of a material is $\rho$ and its bulk modulus of elasticity is $K$. The magnitude of increase in density of material, when a pressure $P$ is applied uniformly on all sides, will be

A$\frac{\rho K }{ P }$
B$\frac{\rho P }{ K }$
C$\frac{ K }{\rho P }$
D$\frac{ PK }{\rho}$

JEE MAIN 2021,AIIMS 2017, Medium

STD 11 Science
NEET
STD 11- 8. mechanical properties of solids
Physics

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