Engineering technology deals with the same topics as engineering, but the knowledge is more applied, as opposed to theoretical knowledge. The mathematics and sciences, as well as the technical courses, in technology programs are taught with more application based examples. Engineering courses may also require additional, higher-level mathematics, including multiple semesters of calculus and calculus-based theoretical science courses to prepare students for continued studies and perform research at the graduate level. Engineering technology courses generally have labs associated with the courses that require hands-on applications of the studied topics.
Technology can be the knowledge of techniques, processes, and the like, or it can be embedded in machines which can be operated without detailed knowledge of their workings.
Technology has many effects. It has helped develop more advanced economies (including today's global economy) and has allowed the rise of a leisure class. Many technological processes produce unwanted by-products known as pollution and deplete natural resources to the detriment of Earth's environment. Various implementations of technology influence the values of a society and new technology often raises new ethical questions. Examples include the rise of the notion of efficiency in terms of human productivity, and the challenges of bioethics.
New materials always open door to new technologies, in fields like civil, chemical, construction, nuclear, aeronautical, agricultural, mechanical, biomedical or electrical engineering.
The definition of the academic field of Materials Engineering stems from a realization concerning every application of materials. The properties of the material gives it value. A material may be chosen for its strength, its electrical properties, resistance to heat or corrosion, or a host of other reasons; but they all relate to properties.
Experience shows that all of the useful properties of a material are intimately related to its structure, at all levels, including which atoms are present, how the atoms are joined, and how groups of atoms are arranged throughout the material. Most importantly, we learn how this structure, and the resulting properties, are controlled by the processing of the material.
Finally materials must perform their tasks in an economical and societally responsible manner. Understanding the relationships between properties, structure, processing and performance makes the Materials Engineer the master of the engineering universe.
The basis of materials science involves studying the structure of materials, and relating them to their properties. Once a materials scientist knows about this structure-property correlation, they can then go on to study the relative performance of a material in a given application. The major determinants of the structure of a material and thus of its properties are its constituent chemical elements and the way in which it has been processed into its final form. These characteristics, taken together and related through the laws of thermodynamics and kinetics, govern a material's microstructure, and thus its properties.
Materials exhibit myriad properties, including the following.
· Mechanical properties, see Strength of materials
· Chemical properties, see Chemistry
· Electrical properties, see Electricity
· Thermal properties, see Thermodynamics
· Optical properties, see Optics and Photonics
· Magnetic properties, see Magnetism
The properties of a material determine its usability and hence its engineering application.
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Answer: Yes. ACASC gives the applicants, the chance to directly apply to their desired universities through our online application portal. We have synchronized our system to create a simple platform that connects universities and colleges in China to international students all around the world.
Answer: To track the application status, please log in your ACASC personal account. Whenever there’s an update, you will be informed on your application status through ACASC system within a day as soon as we receive university’s notification. You will simultaneously receive ACASC auto-email about the application status. To directly inquire about your application status, feel free to send us an email toadmission@acasc.cn and our team will keep you updated.
Answer: When an application is pending a decision it means that your school has received it and no admissions decision has been made yet. The admissions office may have reviewed your application package or may not have.
The main cause of a pending application is usually incomplete application documents. As a result you will be requested by the school’s admission office to re-check and modify all submitted application documents or perhaps even add extra documents and then re-submit them.
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Processing time varies for different applications. For example to process a degree program application requires more time than a Chinese language application. Confirmation for Chinese language application by the admission office usually takes 2 to 4 weeks. However, time for degree programs application differs. For example fall semester application processing is after March, and it takes a period of 1 to 2 months. This also depends on your qualification and the number of applicants.