140845 Match the following
| Column-I | | Column-II | |
| :--- | :--- | :--- | :--- |
| A. | Shear modulus | I | $\begin{array}{l}\text { Resistance to change } \\ \text { in volume }\end{array}$ |
| B. | Shearing stress | II | $\begin{array}{l}\text { Proportionality } \\ \text { constant }\end{array}$ |
| C. | Elastic | III | Tangential stress |
| D. | Modulus of elasticity | IV | $\begin{array}{l}\text { Temporary loss of } \\ \text { elastic property }\end{array}$ |
| | V | $\begin{array}{l}\text { Resistance to change } \\ \text { against deformation } \\ \text { force }\end{array}$ | |
The correct match is

140846 Two wires $A$ and $B$ made of same material is subjected to same tension. The length and diameter of $A$ and $B$ are $10 \mathrm{~cm}, 1 \mathrm{~mm}$ and 70 $\mathrm{cm}, 2 \mathrm{~mm}$ respectively. Then identify the correct statement from the following:

140847 The graph below represents a typical stressstrain curve for a metal. Identify the point on the graph that is the ultimate tensile strength of the material.

140848 A force of $500 \mathrm{~kg}$. wt can break a wire. What is the force necessary to break another wire of the same material and same length but of half the cross - sectional area?

140845 Match the following
| Column-I | | Column-II | |
| :--- | :--- | :--- | :--- |
| A. | Shear modulus | I | $\begin{array}{l}\text { Resistance to change } \\ \text { in volume }\end{array}$ |
| B. | Shearing stress | II | $\begin{array}{l}\text { Proportionality } \\ \text { constant }\end{array}$ |
| C. | Elastic | III | Tangential stress |
| D. | Modulus of elasticity | IV | $\begin{array}{l}\text { Temporary loss of } \\ \text { elastic property }\end{array}$ |
| | V | $\begin{array}{l}\text { Resistance to change } \\ \text { against deformation } \\ \text { force }\end{array}$ | |
The correct match is

140846 Two wires $A$ and $B$ made of same material is subjected to same tension. The length and diameter of $A$ and $B$ are $10 \mathrm{~cm}, 1 \mathrm{~mm}$ and 70 $\mathrm{cm}, 2 \mathrm{~mm}$ respectively. Then identify the correct statement from the following:

140847 The graph below represents a typical stressstrain curve for a metal. Identify the point on the graph that is the ultimate tensile strength of the material.

140848 A force of $500 \mathrm{~kg}$. wt can break a wire. What is the force necessary to break another wire of the same material and same length but of half the cross - sectional area?

140845 Match the following
| Column-I | | Column-II | |
| :--- | :--- | :--- | :--- |
| A. | Shear modulus | I | $\begin{array}{l}\text { Resistance to change } \\ \text { in volume }\end{array}$ |
| B. | Shearing stress | II | $\begin{array}{l}\text { Proportionality } \\ \text { constant }\end{array}$ |
| C. | Elastic | III | Tangential stress |
| D. | Modulus of elasticity | IV | $\begin{array}{l}\text { Temporary loss of } \\ \text { elastic property }\end{array}$ |
| | V | $\begin{array}{l}\text { Resistance to change } \\ \text { against deformation } \\ \text { force }\end{array}$ | |
The correct match is

140846 Two wires $A$ and $B$ made of same material is subjected to same tension. The length and diameter of $A$ and $B$ are $10 \mathrm{~cm}, 1 \mathrm{~mm}$ and 70 $\mathrm{cm}, 2 \mathrm{~mm}$ respectively. Then identify the correct statement from the following:

140847 The graph below represents a typical stressstrain curve for a metal. Identify the point on the graph that is the ultimate tensile strength of the material.

140848 A force of $500 \mathrm{~kg}$. wt can break a wire. What is the force necessary to break another wire of the same material and same length but of half the cross - sectional area?

140845 Match the following
| Column-I | | Column-II | |
| :--- | :--- | :--- | :--- |
| A. | Shear modulus | I | $\begin{array}{l}\text { Resistance to change } \\ \text { in volume }\end{array}$ |
| B. | Shearing stress | II | $\begin{array}{l}\text { Proportionality } \\ \text { constant }\end{array}$ |
| C. | Elastic | III | Tangential stress |
| D. | Modulus of elasticity | IV | $\begin{array}{l}\text { Temporary loss of } \\ \text { elastic property }\end{array}$ |
| | V | $\begin{array}{l}\text { Resistance to change } \\ \text { against deformation } \\ \text { force }\end{array}$ | |
The correct match is

140846 Two wires $A$ and $B$ made of same material is subjected to same tension. The length and diameter of $A$ and $B$ are $10 \mathrm{~cm}, 1 \mathrm{~mm}$ and 70 $\mathrm{cm}, 2 \mathrm{~mm}$ respectively. Then identify the correct statement from the following:

140847 The graph below represents a typical stressstrain curve for a metal. Identify the point on the graph that is the ultimate tensile strength of the material.

140848 A force of $500 \mathrm{~kg}$. wt can break a wire. What is the force necessary to break another wire of the same material and same length but of half the cross - sectional area?