Nano and Biomaterials Past Exam Paper PDF

Summary

This document contains a set of questions and answers on nanomaterials and biomaterials. The questions cover topics such as the size range of nanomaterials, examples of nanomaterials, properties of nanomaterials, and their applications.

Full Transcript

ESTELLORE, REYNAN MARK B.

NANO AND BIOMATERIALS

2 points each

What is the size range of nanomaterials?

a) 1-10 nm

b) 10-100 nm

c) 1-100 nm

d) 100-1000 nm

Answer: c) 1-100 nm

Which of the following is an example of a nanomaterial?
a) Hydroxyapatite

b) Graphene

c) Collagen

d) PLA

Answer: b) Graphene

What property of nanomaterials enhances their reactivity?
a) High surface-to-volume ratio

b) High density

c) Low reactivity

d) High cost

Answer: a) High surface-to-volume ratio

Which of the following is a primary application of nanomaterials?
a) Energy storage
b) Drug delivery

c) Pollution cleanup

d) All of the above

Answer: d) All of the above

What is a major use of nanomaterials in electronics?

a) Strengthening materials

b) Energy conversion

c) Miniaturization of components

d) Water filtration

Answer: c) Miniaturization of components

Which biomaterial is commonly used in bone implants?

a) Hydroxyapatite

b) Carbon nanotubes

c) Quantum dots

d) Graphene

Answer: a) Hydroxyapatite

What is a characteristic of biomaterials used in medical applications?

a) High electrical conductivity

b) Biocompatibility

c) Ability to conduct heat

d) High opacity

Answer: b) Biocompatibility

What is the function of biomaterial scaffolds in tissue engineering?
a) To degrade slowly

b) To support tissue growth and regeneration

c) To protect tissue from toxins

d) To enhance mechanical strength
Answer: b) To support tissue growth and regeneration

Which of the following is an example of a biodegradable polymer used in biomaterials?

a) PLA (Polylactic Acid)

b) Graphene

c) Collagen

d) Quantum dots

Answer: a) PLA (Polylactic Acid)

Which property of nanomaterials is particularly useful for drug delivery systems?

a) Lightweight

b) High surface area

c) High melting point

d) Low conductivity

Answer: b) High surface area

What is a common application of nanomaterials in medicine?

a) Drug delivery

b) Bone implants

c) Heart bypass surgery

d) Blood pressure regulation

Answer: a) Drug delivery
What does biocompatibility in biomaterials refer to?

a) The ability to conduct electricity

b) The ability to break down in the body without harm

c) The ability to resist corrosion
d) The ability to integrate with living tissue without causing immune rejection

Answer: d) The ability to integrate with living tissue without causing immune rejection

What is a potential negative effect of nanomaterials?

a) Increased strength

b) Improved durability

c) Toxicity to ecosystems

d) Reduced conductivity
Answer: c) Toxicity to ecosystems

Which of the following biomaterials is commonly used for surgical implants?

a) Graphene

b) Hydroxyapatite

c) Quantum dots

d) Nanotubes
Answer: b) Hydroxyapatite

What is one advantage of biodegradable biomaterials?

a) They do not need to be removed after use

b) They are more expensive than non-biodegradable materials

c) They enhance mechanical properties

d) They increase risk of infection
Answer: a) They do not need to be removed after use
Which of the following is an effect of using nanomaterials in energy systems?

a) Decreased efficiency

b) Increased energy conversion efficiency
c) Increased energy consumption

d) Decreased lifespan of energy components

Answer: b) Increased energy conversion efficiency

How are biomaterials typically used in wound healing?

a) To kill bacteria

b) To provide structural support and promote tissue regeneration

c) To cool the wound
d) To prevent blood clotting

Answer: b) To provide structural support and promote tissue regeneration

Which of the following is a challenge associated with the use of nanomaterials?

a) High electrical conductivity

b) Environmental accumulation and toxicity

c) Low cost of production
d) High durability

Answer: b) Environmental accumulation and toxicity

What is a primary property of nanomaterials that makes them effective in drug delivery?

a) High electrical conductivity

b) High surface area-to-volume ratio

c) High opacity
d) Resistance to degradation
Answer: b) High surface area-to-volume ratio

What is a common use of biomaterials in tissue engineering?

a) Temporary scaffolds for tissue regeneration
b) Enhancing bone strength

c) Conducting electrical impulses

d) Filtering toxins from the body

Answer: a) Temporary scaffolds for tissue regeneration

Which of the following nanomaterials is often used in electronics due to its electrical
properties?

a) Graphene

b) Collagen

c) Hydroxyapatite
d) PLA

Answer: a) Graphene

What is a key benefit of using biomaterials for implants and prosthetics?

a) They are electrically conductive

b) They support tissue healing and integration with the body

c) They improve heat resistance
d) They are more cost-effective than traditional materials

Answer: b) They support tissue healing and integration with the body

What is the role of quantum dots in nanotechnology?

a) Structural reinforcement

b) Drug delivery
c) Optical applications (e.g., fluorescence)

d) Biodegradable material for implants

Answer: c) Optical applications (e.g., fluorescence)

What is the impact of size-dependent properties in nanomaterials?

a) They increase electrical resistance

b) They cause nanomaterials to behave differently from bulk materials

c) They make nanomaterials less reactive

d) They increase their weight

Answer: b) They cause nanomaterials to behave differently from bulk materials

What is a key factor in choosing biomaterials for medical implants?
a) High surface-to-volume ratio

b) Biocompatibility and ability to integrate with body tissue

c) Ability to conduct electricity

d) Strength in extreme temperatures

Answer: b) Biocompatibility and ability to integrate with body tissue
LOGRONIO, Crizlie A.

TOPIC: Selection / Re-use & Recycling of Materials

PART I
Instructions: Choose the letter with the correct answer. (2pts per number)

1. Its purpose is to recycle waste products by giving it to other people for free
a. Freecycling
b. Deconstruction
c. Open handed reuse
d. Upcycling

2. It is a material that is not biodegradable, but it can be recycled repeatedly without
diminishing its quality.
a. Porcelain
b. Glass
c. Clay
d. Metal

3. Which represents a process in the total materials cycle:
a. Earth → Raw Materials → Synthesis and Processing → Manufacture,
Assembly → Engineered Materials → Product Design → Application → Waste
→ Earth
b. Earth → Raw Materials → Synthesis and Processing → Engineered Materials
→ Product Design, Manufacture, Assembly → Application → Waste
c. Earth → Raw Materials → Synthesis and Processing → Engineered
Materials → Product Design, Manufacture, Assembly → Application →
Waste → Earth
d. Earth → Recycle / Reuse → Synthesis and Processing → Engineered
Materials → Product Design, Manufacture, Assembly → Application → Waste
→ Earth
4. The following are compositions of glass EXCEPT:
a. soda–lime
b. leaded
c. borosilicate
d. Alkaline

5. Its purpose is to recycle used waste products.
a. Open handed reuse
b. Recycling
c. Creative Reuse
d. Uphill cycling

6. Is technically a form of reusing, but it refers more specifically to items that are
discarded and broken down into their raw materials.
a. Freecycling
b. Deconstruction
c. Open handed reuse
d. Recycling

7. The materials reused in recycling serve as substitutes for raw materials obtained
from such increasingly scarce natural resources as the following EXCEPT:
a. Natural Gas
b. Trees
c. Mineral Ores
d. Geothermal Heat

8. Which is a type of reuse:
a. Destruction
b. Downcycling
c. Recycling
d. Construction
9. What is the number on the recycle code of polypropylene?
a. 6
b. 4
c. 5
d. 1

10. Its main goals include preserving architectural and cultural heritage, transforming
urban blight, and igniting social change.
a. Recycling
b. Adaptive Reuse
c. Adoptive Reuse
d. Uphill Cycling

11. It can help reduce the quantities of solid waste deposited in landfills, which have
become increasingly expensive.
a. Recycling
b. Reuse
c. Recovery
d. Reduce

12. Can be defined as using a waste product without further transformation and
without changing its shape or original nature.
a. Reduce
b. Recycling
c. Recovery
d. Reuse

13. Which of the following is NOT a part of the process in recycling metals:
a. Collection
b. Testing
c. Transportation
d. Processing
14. This is the second option in the waste hierarchy.
a. Recovery
b. Reuse
c. Recycling
d. Reduce

15. It is a closed system, in that its materials resources are finite.
a. Factory
b. Environment
c. Earth
d. Landfill

16. Typical materials that are recycled include the following EXCEPT:
a. Iron and Steel Scrap
b. Aluminum Cans
c. Appelation
d. Glass Bottles

17. Which of the following is an application on the total materials cycle.
a. Exploration
b. Energy
c. Cooling
d. Adventure

18. Different types of solid wastes can be reused, such as the following EXCEPT:
a. Bottles
b. Detergents
c. Old Clothes
d. Books

19. It is the repurposing of buildings that have outlived their original purpose.
a. Adaptive Reuse
b. Breakdown Reuse
c. Recycling
d. Adoptive Reuse
20. Major sources of waste are from packaging, junked automobiles, automobile
tires, and domestic durable goods.
a. Plastics
b. Rubber
c. Styrofoam
d. Cellophane

21. This is a process from the total material cycle:
a. Earth → Raw Materials → Synthesis and Processing → Engineered Materials
→ Product Design, Manufacture, Assembly → Application → Waste
b. Raw Materials → Synthesis and Processing → Engineered Materials →
Product Design, Manufacture, Assembly → Application → Waste → Earth
c. Waste → Recycle/Reuse → Raw Materials → Synthesis and Processing →
Engineered Materials → Manufacture & Assembly → Application
d. Waste → Recycle/Reuse → Raw Materials → Synthesis and Processing
→ Engineered Materials → Product Design, Manufacture, Assembly →
Application → Waste

22. The purpose of this is to recycle things that have been previously used by giving
them away to other people for free.
a. Up Down Funk
b. Freecycling
c. Up Cycling
d. Down Cycling

23. It can help reduce the quantities of solid waste deposited in landfills, which have
become increasingly expensive.
a. Reuse
b. Recovery
c. Reduce
d. Recycling
24. What is the number on the recycle code of High-density polyethylene?
a. 2
b. 1
c. 4
d. 3

25. What is the number on the recycle code of Polysterene?
a. 3
b. 4
c. 5
d. 6