Materials

Question 1

what is plastic deformation?

Answer 1

when the force applied to an object is removed and the material doesn’t return back to its original shape/remails partially deformed

Question 2

what is elastic deformation?

Answer 2

when the force applied to an object is removed and the material returns back to its original shape

Question 3

what is Hooke’s law (equation)?

Answer 3

force = spring constant x extension

Question 4

what is the equation for elastic potential energy?

Answer 4

energy = 1/2 x spring constant x extension^2

Question 5

how do we find the spring constant of springs in series?

Answer 5

1/k = 1/k1 + 1/k2…

Question 6

how do we find the spring constant of springs in parallel?

Answer 6

k = k1 + k2…

Question 7

what does the area under a force-extension graph represent?

Answer 7

the elastic potential energy

Question 8

what does the gradient of a force-extension graph represent?

Answer 8

spring constant

Question 9

what is the equation of strain?

Answer 9

strain = extension (m2) / original length (m2)

Question 10

what is the equation for Youngs Modulus?

Answer 10

energy (Pa) = stress (Pa) / strain

Question 11

what is a brittle material?

Answer 11

a strong material that will break without having a region of plastic deformation

Question 12

what is a ductile material?

Answer 12

material that can be stretched into wires because it has a large plastic region

Question 13

what is Youngs Modulus?

Answer 13

measure of stiffness of a material but taking into account the dimensions

Question 14

how can Youngs Modulus be found with a stress-strain graph?

Answer 14

gradient

Question 15

what happens when a material has a high Youngs Modulus?

Answer 15

more stiff

Question 16

what happens when a material has a low Youngs Modulus?

Answer 16

flexible

Question 17

what are the similarities between k and E?

Answer 17

both measurements of stiffness (applied when obeying Hooke’s Law)

Question 18

what are the differences between k and E?

Answer 18

E never changes as it doesn’t depend on dimensions

Question 19

what are the properties of rubber?

Answer 19

• doesn’t obey Hookes Law but returns to original shape
• Hysteresis loop represents energy transferred from stretching to thermal
• work done unloading is equal to the thermal energy released

Question 20

what are the properties of polythene?

Answer 20

• doesnt obey Hookes Law
• experiences plastic deformation when force applied
• easy to stretch into new shapes

Question 21

what are the properties of a metal wire?

Answer 21

• obeys Hookes Law
• shows elastic deformation until elastic limit
• unloading equals loading in this region
• experiences plastic deformation after elastic limit
• unloading curve has permanent extension

Question 22

how do we work out thermal energy from a graph?

Answer 22

count number of boxes