T366 Nanoscale engineering Assignment Answers UK
T366 Nanoscale engineering is a module that focuses on the design, development, and demonstration of nanoscale materials and devices. It is a challenging module that requires students to excel in their understanding of the principles of nanotechnology and how this can be applied to create new materials and devices with enhanced properties.
Nanoscale engineering involves the manipulation of matter on an atomic or molecular scale for applications such as coatings, catalysts, sensors, electronics, nanomaterials, and 3D printing. Students will learn how to identify nanoscopic materials and devices, their structures, synthesis techniques, and possible applications.
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In this section, we are discussing some assignment activities. These are:
Assignment Activity 1: Explain how the properties and behaviour of materials and structures differ at the microscale and the nanoscale when compared to the macroscale.
When it comes to the microscale and nanoscale, materials and structures are subject to a wide range of physical characteristics that differ from those observed at the macroscale. At the lower end of this scale, the effects of quantum mechanics significantly affect how molecules interact with each other, introducing entirely new properties to take into account.
At the microscale and even more so at the nanoscale, materials exhibit unique strength-to-weight ratios due to their reduced size. For instance, researchers have exploited graphene’s 200 times greater strength than steel in nano-manufactured components for lightweight automobiles or applications requiring high durability. Similarly, nanomaterials offer enhanced conductive properties that can be used in battery production or energy storage solutions as well as magnetic shielding materials with higher permeability than classic steel alloys.
On top of these mechanical advantages, scientists are also exploiting phenomena such as superhydrophobicity (water repellence) or changes in electrical charge when exposed to ultraviolet light for various applications ranging from bottle coatings making them easier to clean and recycle to swimming pool cleaners that detect algae through spectral analysis on-site. These functionalities arise from complete structural rearrangements due to forces arising from low distances between atoms which cannot be mirrored by any macroscopic process since most interactions occur at much larger scales compared with nanoengineering processes.
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Assignment Activity 2: Describe how nanoscale engineering has been used to mimic the natural world.
Nanoscale engineering has been used to replicate many of the natural phenomena and processes found in nature. One example is the development of nanoscale sensors that can detect extremely small changes in their environment, such as an increase or decrease in temperature, pressure, humidity, or light. These sensors are often used to monitor the environment for safety and security purposes, but they can also be used to track changes in the environment over time.
In addition, nanoscale engineering has been used to create highly efficient solar cells that mimic photosynthesis, the process by which plants capture and convert sunlight into usable energy. Solar cells made with nanoscale materials have the potential to be much more efficient than traditional solar cells, as they are able to absorb more light and convert it into energy.
Finally, nanoscale engineering has been used to develop materials with unique properties that mimic some of the natural processes found in nature. For example, researchers have developed self-healing polymers that can repair themselves when damaged. These materials are inspired by the natural healing process found in some organisms, such as lizards and starfish.
These are just some of the ways that nanoscale engineering has been used to mimic the natural world. As technology advances, we can expect to see more examples of how nanoscale engineering is being used to replicate natural phenomena and processes.
Assignment Activity 3: Select and use appropriate mathematical, computational, and analytical techniques to determine the composition, structure, identity, and properties of nanomaterials.
To determine the composition, structure, identity, and properties of nanomaterials, mathematical, computational, and analytical techniques must be used. Firstly, various spectroscopic techniques can be employed to determine the elemental composition of a nanomaterial. These include X-ray diffraction (XRD), elastic scattering spectroscopy (ESS), and Raman spectroscopy.
To determine the structure of a nanomaterial, X-ray scattering techniques such as X-ray photoelectron spectroscopy (XPS) and transmission electron microscopy (TEM) can be used. These techniques allow researchers to visualize the atomic-scale structure of a material, giving insight into its physical and chemical properties.
Once the composition and structure are known, mathematical modeling techniques such as density functional theory (DFT) and molecular dynamics simulations can be employed to understand how the nanomaterial behaves at different temperatures, pressures, and applied forces. These models provide insight into the thermodynamic and kinetic properties of the material, allowing researchers to predict how it will respond to changes in its environment.
Finally, analytical techniques such as energy dispersive spectroscopy (EDS) and scanning electron microscopy (SEM) can be used to identify the chemical and structural properties of a nanomaterial. These techniques allow for a detailed analysis of the material’s surface morphology, giving insight into its physical and chemical properties.
By combining these various techniques, researchers can gain a comprehensive understanding of the composition, structure, identity, and properties of nanomaterials. This knowledge is essential for developing advanced nanotechnology applications with enhanced performance and durability.
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Assignment Activity 4: Effectively and accurately deliver ideas, information and solutions to problems in engineering disciplines through a range of media.
Effective communication is an important skill to have when working in engineering disciplines. In order to accurately deliver ideas, information, and solutions to problems, it is necessary to be able to effectively communicate with colleagues, clients, and stakeholders. There is a range of media that can be used for this purpose, including written reports, presentations, email correspondence, and telephone conversations.
When writing reports, it is important to ensure that the language used is clear and concise, with any technical jargon explained where necessary. Reports should also be organized in a logical manner so that information can be easily accessed and understood.
Presentations are an effective way of conveying complex information to a large audience. Visual aids such as diagrams, photos, and videos can be used to support the narrative and help audience members remember key points. It is important to keep presentations concise and engaging in order to maintain the audience’s attention.
Email correspondence is an essential tool for communicating with clients, colleagues, and stakeholders. Messages should be clear, succinct, and professional in a tone so that the intended message is accurately conveyed. It is important to ensure that all emails are read and responded to promptly in order to maintain good working relationships.
Finally, telephone conversations can be an effective way of quickly exchanging information with colleagues and clients. During a phone call, it is important to remain professional and courteous, while also communicating the necessary information clearly.
In conclusion, effective communication is essential for any engineer working in an engineering discipline. By understanding the different media available and having a good grasp of written, verbal, and presentation skills, engineers can ensure that their ideas, information, and solutions are accurately delivered to the intended audience.
Assignment Activity 5: Search and use relevant journal papers via the library website.
Searching for journal papers via a library website is an important part of the research process. It is essential to be able to locate and access relevant literature in order to gain an understanding of the topic being studied and provide support for claims made throughout the research project.
When searching for journal papers, it is important to use a variety of search terms and refine the search results. This will help to ensure that only relevant articles are retrieved, which can then be further assessed for their usefulness. It is also important to consider different sources of literature, such as books and journal databases, in order to gain access to the most up-to-date research.
Once a selection of articles has been identified, it is important to carefully read the abstract and introduction of each paper to gain an understanding of the research topic and its relevance. After this initial assessment, any articles deemed relevant can be further explored in-depth. It is also important to ensure that any sources used are cited correctly throughout the research project as failure to do so could constitute plagiarism.
In conclusion, searching for journal papers via a library website is an important part of the research process. By ensuring that relevant search terms are used and only relevant articles are accessed, researchers can gain access to accurate and up-to-date literature which can be used to support their research project. Furthermore, it is essential that any sources used are cited correctly in order to avoid any plagiarism issues.
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