LEXICAL FEATURES OF NOUN PREFIX MORPHEMES (ON THE MATERIAL OF THE ENGLISH TECHNICAL DISCOURSE FIELDS “CHEMICAL ENGINEERING”, “AUTOMOTIVE ENGINEERING”, “ELECTRICAL ENGINEERING”)

2020 ◽  
Vol 3 (29) ◽  
pp. 52-58
Author(s):  
Mariya NEVREVA ◽  
Galina DYACHENKO ◽  
Tatyana SIROTENKO
2017 ◽  
Author(s):  
John T. Stimus

The Beginner’s Guide to Engineering series is designed to provide a very simple, non-technical introduction to the fields of engineering for people with no experience in the fields. Each book in the series focuses on introducing the reader to the various concepts in the fields of engineering conceptually rather than mathematically. These books are a great resource for high school students that are considering majoring in one of the engineering fields, or for anyone else that is curious about engineering but has no background in the field. Books in the series: 1. The Beginner’s Guide to Engineering: Chemical Engineering 2. The Beginner’s Guide to Engineering: Computer Engineering 3. The Beginner’s Guide to Engineering: Electrical Engineering 4. The Beginner’s Guide to Engineering: Mechanical Engineering


Author(s):  
B. R. Flachsbart ◽  
S. Prakash ◽  
J. Yeom ◽  
Y. Wu ◽  
G. Z. Mozsgai ◽  
...  

The need to provide students with hands-on instruction in the fabrication of Microelectromechanical Systems (MEMS) led to the development of an upper-undergraduate, introductory-graduate, laboratory course offered each spring in the Department of Mechanical Science and Engineering (MechSE). The laboratory is taught in a class 100 cleanroom located in, and operated by, the MechSE department. Fabrication and testing of two MEMS device projects, a piezoresistive membrane pressure sensor and a microfluidic logic chip, facilitate the teaching of standard fabrication procedures, fabrication tool operation, and cleanroom protocols. The course appeals across disciplines as evident by half the students coming from other departments (chemical engineering, chemistry, material science, physics, electrical engineering, aeronautical engineering, etc.). The course also serves to attract prospective graduate students as many students continue to use the cleanroom in their graduate level research. This course broadly covers MEMS fabrication theory while maintaining a focus on practical understanding and laboratory application of that theory. The lecture is tied closely to the laboratory work by covering the tool and procedure theory that is used in the lab each week. An exciting aspect of the course is the hands-on learning experience the students get by independently operating the fabrication equipment themselves, including metal deposition tools, reactive ion etch (RIE) tools, lithography tools (spinners, mask aligners, etc.), and bath etchers and cleaners. Safety is an important aspect of the course where students are tested on safety protocol, Material Safety Data Sheet (MSDS) and National Fire Protection Agency (NFPA) familiarity, personal protection procedures, etc. The students also learn benchmark fabrication procedures including standard cleaning protocols (with ultrasonics), the Bosch RIE etching of silicon microstructures, and anisotropic etching of silicon. The piezoresistive membrane pressure sensor project facilitates an understanding of the residual stresses involved in thin-film deposition, stress-strain relationships, and signal analysis for transduction mechanisms. The microfluidic logic chip project, a chip of logic gates (NAND, NOR, etc.) and a half-adder, facilitates understanding fundamental principles of microfluidics, the Navier-Stokes equation, and flow in microchannels. This course, originally sponsored by Intel Corporation, prepares Mechanical Engineers in a multi-disciplinary environment to learn both the practical fundamentals and the theoretical basis of basic and advanced microfabrication that goes beyond the usual CMOS fabrication theory and methodology taught in Electrical Engineering for the microelectronics bound students. As evident from its popularity, the course also serves to excite and equip students for the important Mechanical Engineering field of MEMS.


2017 ◽  
Author(s):  
Mary Ellen Latschar

The Beginner’s Guide to Engineering series is designed to provide a very simple, non-technical introduction to the fields of engineering for people with no experience in the fields. Each book in the series focuses on introducing the reader to the various concepts in the fields of engineering conceptually rather than mathematically. These books are a great resource for high school students that are considering majoring in one of the engineering fields, or for anyone else that is curious about engineering but has no background in the field. Books in the series: 1. The Beginner’s Guide to Engineering: Chemical Engineering 2. The Beginner’s Guide to Engineering: Computer Engineering 3. The Beginner’s Guide to Engineering: Electrical Engineering 4. The Beginner’s Guide to Engineering: Mechanical Engineering


2017 ◽  
Author(s):  
Mark Huber

The Beginner’s Guide to Engineering series is designed to provide a very simple, non-technical introduction to the fields of engineering for people with no experience in the fields. Each book in the series focuses on introducing the reader to the various concepts in the fields of engineering conceptually rather than mathematically. These books are a great resource for high school students that are considering majoring in one of the engineering fields, or for anyone else that is curious about engineering but has no background in the field. Books in the series: 1. The Beginner’s Guide to Engineering: Chemical Engineering 2. The Beginner’s Guide to Engineering: Computer Engineering 3. The Beginner’s Guide to Engineering: Electrical Engineering 4. The Beginner’s Guide to Engineering: Mechanical Engineering


2017 ◽  
Author(s):  
James Lance

The Beginner’s Guide to Engineering series is designed to provide a very simple, non-technical introduction to the fields of engineering for people with no experience in the fields. Each book in the series focuses on introducing the reader to the various concepts in the fields of engineering conceptually rather than mathematically. These books are a great resource for high school students that are considering majoring in one of the engineering fields, or for anyone else that is curious about engineering but has no background in the field. Books in the series: 1. The Beginner’s Guide to Engineering: Chemical Engineering 2. The Beginner’s Guide to Engineering: Computer Engineering 3. The Beginner’s Guide to Engineering: Electrical Engineering 4. The Beginner’s Guide to Engineering: Mechanical Engineering


1945 ◽  
Vol 152 (1) ◽  
pp. 226-231 ◽  
Author(s):  
L. C. Tyte

The requirements to be satisfied by temperature-indicating pigments are stated and the development of pigments to meet this specification is described. The extension to multiple transition paints and the development of binding materials and the composition of the paints are then discussed. Methods of application of the paints and the recording of results are considered. Factors influencing the temperature—colour change relations are then examined; they include ( a) the time effect, ( b) the effect of liquid films and gases, ( c) the effect of heat transfer by conduction and radiation, and ( d) redistribution of temperatures during cooling of the body. Consideration is given to the estimated accuracy of the temperature indicated. A review of uses in (i) Mechanical Engineering, (ii) Electrical Engineering, (iii) Chemical Engineering and Metallurgy, and (iv) Teaching, is made.


Symmetry ◽  
2020 ◽  
Vol 12 (7) ◽  
pp. 1077
Author(s):  
Francisco G. Montoya ◽  
Raúl Baños ◽  
Alfredo Alcayde ◽  
Francisco Manzano-Agugliaro

Symmetry can be understood in two different ways: as a property or as a principle. As Plato said, the symmetry that can be seen in nature is not random in itself, because it is a result of the symmetries of the physical laws. Thus, the principles of symmetry have been used to solve mechanical problems since antiquity. Today, these principles are still being researched; for example, in chemical engineering, the spatial symmetry properties of crystal lattices are being studied, or in electrical engineering, the temporal symmetry of the periodic processes of oscillators can be observed. This Special Issue is dedicated to symmetry in engineering sciences (electrical, mechanical, civil, and others) and aims to cover both engineering solutions related to symmetry and the search for patterns to understand the phenomena observed.


Author(s):  
Yeptadian Sari

FT UMJ has nine programs which include undergraduate programs in civil engineering, electrical engineering, chemical engineering, mechanical engineering, industrial engineering, architecture, informatics engineering, D3 OAB and masters of chemical engineering. All programs are located in one building in the center of Jakarta that has strict land regulations. The fixed nature of the land, but the increasing number of requests or needs, makes land one of the most promising areas of investment. To improve efficiency on land limitations, it is necessary to optimize land use. But the fact is, there are still many lands that have not been used optimally for the land owner due to unfavorable reasons. Likewise for open space that owned by UMJ which is not utilized properly. The expected outcome of this research is the best utilization of FT UMJ open space by taking into account the criteria physically possible, legally permitted, financially feasible, and having maximum productivity.


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