A uniform cubical block is subjected to volumetric compression, which decreases its each side by 2 %. The Bulk strain produced in it is ............

Q: A uniform cubical block is subjected to volumetric compression, which decreases its each side by $2 \%$. The Bulk strain produced in it is ............

c (c) Volume $=(\text { side })^3$ $v=(a)^3$ So $\frac{\Delta V}{V}=\frac{3 \Delta a}{a}$ $\left\{\operatorname{given} \frac{\Delta a}{a}=-2 \%\right\}$ $\therefore \frac{\Delta v}{v}=3 \times-2 \quad \text { Side decreases solve used (-)ve sign }$ $=-6 \%$ We know $\frac{\Delta v}{v}=-\frac{P}{B}$ Substituting value of $\Delta v / v$ $-\frac{6}{100}=-\frac{P}{B}$ So bulk strain produced is $0.06$

SECTION - A [PHYSICS - MCQ]

GSEB - English Medium

A uniform cubical block is subjected to volumetric compression, which decreases its each side by $2 \%$. The Bulk strain produced in it is ............

A$0.03$
B$0.02$
C$0.06$
D$0.12$

Medium

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

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
The lower surface of a cube is fixed. On its upper surface, force is applied at an angle of $30°$ from its surface. The change will be of the type
View Solution
2
A boy’s catapult is made of rubber cord which is $42\, cm$ long, with $6\, mm$ diameter of cross -section and of negligible mass. The boy keeps a stone weighing $0.02\, kg$ on it and stretches the cord by $20\, cm$ by applying a constant force. When released, the stone flies off with a velocity of $20\, ms^{-1}$. Neglect the change in the area of cross section of the cord while stretched. The Young’s modulus of rubber is closest to
View Solution
3
The substances having very short plastic region are
View Solution
4
The work per unit volume to stretch the length by $1\%$ of a wire with cross sectional area of $1\,m{m^2}$ will be. $[Y = 9 \times {10^{11}}\,N/{m^2}]$
View Solution
5
A uniform metal rod of $2\, mm^2$ cross section fixed between two walls is heated from $0\,^oC$ to $20\,^oC$. The coefficient of linear expansion of rod is $12\times10^{-6}/^oC$. Its Young's modulus of elasticity is $10^{11} \,N/m^2$. The energy stored per unit volume of rod will be ....... $J/m^3$
View Solution
6
The work done in stretching an elastic wire per unit volume is
View Solution
7
What must be the lengths of steel and copper rods at $0^o C$ for the difference in their lengths to be $10\,cm$ at any common temperature? $(\alpha_{steel}=1.2 \times {10^{-5}} \;^o C^{-1})$ and $(\alpha_{copper} = 1.8 \times 10^{-5} \;^o C^{-1})$
View Solution
8
A material has Poisson's ratio $0.50.$ If a uniform rod of it suffers a longitudinal strain of $2 \times {10^{ - 3}}$, then the percentage change in volume is
View Solution
9
A wire $2 \,m$ in length suspended vertically stretches by $10 \,mm$ when mass of $10 \,kg$ is attached to the lower end. The elastic potential energy gain by the wire is $...... J ($take $g=10 \,m / s ^2 )$
View Solution
10
If Poission's ratio $\sigma $ is $ - \frac{1}{2}$ for a material, then the material is
View Solution

Download our appand get started for free

Similar Questions

Download our app
and get started for free