To stretch a test piece and measure its deformation

To determine the melting point of a material

To compress a material and measure its resistance

To measure the hardness of a material

The magnetic properties of a material

The relationship between temperature and stress

The deformation of a material under different levels of applied stress

The electrical conductivity of a material

Fracture region

Elastic region

Yield region

Plastic region

Modulus of rigidity

Modulus of elasticity

Shear modulus

Bulk modulus

Ceramics have lower values

Ceramics have similar values

Ceramics have higher values

Ceramics have no measurable values

The temperature of the material

The direction of the applied load

The color of the material

The age of the material

The weight of the material

The strength of the inter-atomic bonds

The color of the material

The size of the atoms

Because they involve rearrangement of atoms

Because they are resisted by the strength of inter-atomic bonds

Because they occur at high temperatures

Because they involve breaking of atomic bonds

Because they have the same carbon content

Because the additional carbon atoms do not significantly affect the inter-atomic bonds

Because they are both non-metallic

Because they have the same yield strength

To maximize the weight of the structure

To minimize elastic deformations under load

To ensure materials have high electrical conductivity

To increase the thermal expansion of materials