The document provides an overview of various engineering fields and careers. It discusses 14 engineering disciplines - electrical, computer, mechanical, civil, aerospace, petroleum, chemical, industrial, acoustics, biomedical, materials, nuclear, agricultural, and environmental engineering. For each field, it outlines relevant foundations of study and potential career paths. Overall, the document serves to introduce the wide variety of specializations within engineering and illustrate the breadth of work environments and industries engineers may enter.
Mechanical engineering is one of broadest studies in engineering
The design and creation of mechanical technologies that benefit society
They utilize power to work with all types of mechanical devices, and all types of manufacturing and plant designs
Engineering as a discipline prepares scholars to bring a considerable change in the technological aspects of the society. Every sub-discipline of engineering precisely emphasizes on a specific domain, whether it is agriculture, electrical, electronics, civil, production or mechanical. With the dynamic growth of technology, the requirement of engineers is also growing by leaps and bounds and engineers are continually contributing towards the betterment of society through innovative, revolutionary and entrepreneurial diversity. However, scholars deal with several concerns while penning assignments on the topics of engineering. A lot of times they feel deprived of time due to tight schedule, and at times, it’s the lack of topic knowledge which inclines them towards seeking engineering assignment help services. If you have tried giving your best at working on engineering assignments, and still secure poor grades, then it’s time for you to avail engineering assignment help from subject-oriented writers. At The Student Helpline, you will find a team of professionals for whom offering engineering assignment writing services is not less than a cakewalk. Ask them about any concept, and they must have already worked on it.
https://thestudenthelpline.com/service/engineering-assignment-help.php
This document provides an introduction to mechanical engineering. It discusses what mechanical engineers do, including designing machines and systems, manufacturing, testing, maintenance, and more. Some key areas mechanical engineers work in are energy, transportation, manufacturing, and healthcare. The document outlines the mechanical engineering education process and typical career paths, noting mechanical engineers work in a wide variety of industries. It emphasizes mechanical engineering involves problem solving, applying math and science concepts, and benefits society through technological innovation.
Engineering is the application of math and science to solve problems and make things work better. There are many engineering disciplines that apply these principles to different areas such as mechanical, electrical, chemical, and civil engineering. Mechanical engineering deals with designing and building a wide range of components from microscopic to gigantic parts. Electrical engineering influences many everyday technologies like phones and computers. Chemical engineering applies chemistry to practical problems in industries like pharmaceuticals. Civil engineering designs infrastructure to address issues like pollution. Good engineers enjoy problem solving and improving things. Strong communication and computer skills are important for the field. Engineering education typically requires a bachelor's degree, and good career opportunities exist in both private companies and government sectors.
Mechanical engineering deals with forces and motion and includes designing, analyzing, and maintaining mechanical systems. James Watt improved the steam engine in the 18th century and is considered the founder of mechanical engineering. Mechanical engineering is a broad field that works with energy, forces, and materials across many industries. Examples of mechanical engineering jobs include design, manufacturing, maintenance, research and development, project management, and more. Early applications included pumping water, draining mines, building structures, and designing scientific instruments, while current areas of research include acoustics, automation, bioengineering, and more. Mechanical engineers play a key role in transportation and are working on making aviation more environmentally friendly.
Get custom services for Materials Engineering Assignment help & Materials Engineering Homework help. Our Materials Engineering Online tutors are available for instant help for Materials Engineering assignments & problems.
Materials Engineering Homework help & Materials Engineering tutors offer 24*7 services . Send your Materials Engineering assignments at support@globalwebtutors.com or else upload it on the website. Instant Connect to us on live chat for Materials Engineering assignment help & Materials Engineering Homework help
Engineering is the application of mathematics, as well as scientific, economic, social, and practical knowledge to invent, innovate, design, build, maintain, research, and improve structures, machines, tools, systems, components, materials, processes, solutions, and organizations.
The discipline of engineering is extremely broad and encompasses a range of more specialized fields of engineering, each with a more specific emphasis on particular areas of applied science, technology and types of application.
The term Engineering is derived from the Latin ingenium, meaning "cleverness" and ingeniare, meaning "to contrive, devise". The creative application of scientific principles to design or develop structures, machines, apparatus, or manufacturing processes, or works utilizing them singly or in combination; or to construct or operate the same with full cognizance of their design; or to forecast their behavior under specific operating conditions; all as respects an intended function, economics of operation or safety to life and property.
Engineering has existed since ancient times as humans devised fundamental inventions such as the wedge, lever, wheel and pulley. Each of these inventions is essentially consistent with the modern definition of engineering.
The term engineering is derived from the word engineer, which itself dates back to 1390 when an engine'er (literally, one who operates an engine) originally referred to "a constructor of military engines." In this context, now obsolete, an "engine" referred to a military machine, i.e., a mechanical contraption used in war (for example, a catapult). Notable examples of the obsolete usage which have survived to the present day are military engineering corps, e.g., the U.S. Army Corps of Engineers.
The word "engine" itself is of even older origin, ultimately deriving from the Latin ingenium (c. 1250), meaning "innate quality, especially mental power, hence a clever invention."
Later, as the design of civilian structures such as bridges and buildings matured as a technical discipline, the term civil engineering entered the lexicon as a way to distinguish between those specializing in the construction of such non-military projects and those involved in the discipline of military engineering.
Here are the answers to the guide questions:
1. Petroleum engineers maintain the conditions of every oil pumping machinery or preventing natural disaster on the drilling field and to find out where is the most oil deposit sites.
2. Aerospace engineering deals with mathematic and physics of airplanes.
3. Some of the best schools in terms of engineering are:
- Mapua Institute Of Technology
- University Of Santo Tomas
- Technological Institute Of The Philippine
- Bulacan State University
- De La salle University – Manila
4. The 6 main types of engineering are:
- Civil engineering
- Mechanical engineering
- Chemical engineering
- Petroleum engineering
- Electrical engineering
Mechanical engineering is one of broadest studies in engineering
The design and creation of mechanical technologies that benefit society
They utilize power to work with all types of mechanical devices, and all types of manufacturing and plant designs
Engineering as a discipline prepares scholars to bring a considerable change in the technological aspects of the society. Every sub-discipline of engineering precisely emphasizes on a specific domain, whether it is agriculture, electrical, electronics, civil, production or mechanical. With the dynamic growth of technology, the requirement of engineers is also growing by leaps and bounds and engineers are continually contributing towards the betterment of society through innovative, revolutionary and entrepreneurial diversity. However, scholars deal with several concerns while penning assignments on the topics of engineering. A lot of times they feel deprived of time due to tight schedule, and at times, it’s the lack of topic knowledge which inclines them towards seeking engineering assignment help services. If you have tried giving your best at working on engineering assignments, and still secure poor grades, then it’s time for you to avail engineering assignment help from subject-oriented writers. At The Student Helpline, you will find a team of professionals for whom offering engineering assignment writing services is not less than a cakewalk. Ask them about any concept, and they must have already worked on it.
https://thestudenthelpline.com/service/engineering-assignment-help.php
This document provides an introduction to mechanical engineering. It discusses what mechanical engineers do, including designing machines and systems, manufacturing, testing, maintenance, and more. Some key areas mechanical engineers work in are energy, transportation, manufacturing, and healthcare. The document outlines the mechanical engineering education process and typical career paths, noting mechanical engineers work in a wide variety of industries. It emphasizes mechanical engineering involves problem solving, applying math and science concepts, and benefits society through technological innovation.
Engineering is the application of math and science to solve problems and make things work better. There are many engineering disciplines that apply these principles to different areas such as mechanical, electrical, chemical, and civil engineering. Mechanical engineering deals with designing and building a wide range of components from microscopic to gigantic parts. Electrical engineering influences many everyday technologies like phones and computers. Chemical engineering applies chemistry to practical problems in industries like pharmaceuticals. Civil engineering designs infrastructure to address issues like pollution. Good engineers enjoy problem solving and improving things. Strong communication and computer skills are important for the field. Engineering education typically requires a bachelor's degree, and good career opportunities exist in both private companies and government sectors.
Mechanical engineering deals with forces and motion and includes designing, analyzing, and maintaining mechanical systems. James Watt improved the steam engine in the 18th century and is considered the founder of mechanical engineering. Mechanical engineering is a broad field that works with energy, forces, and materials across many industries. Examples of mechanical engineering jobs include design, manufacturing, maintenance, research and development, project management, and more. Early applications included pumping water, draining mines, building structures, and designing scientific instruments, while current areas of research include acoustics, automation, bioengineering, and more. Mechanical engineers play a key role in transportation and are working on making aviation more environmentally friendly.
Get custom services for Materials Engineering Assignment help & Materials Engineering Homework help. Our Materials Engineering Online tutors are available for instant help for Materials Engineering assignments & problems.
Materials Engineering Homework help & Materials Engineering tutors offer 24*7 services . Send your Materials Engineering assignments at support@globalwebtutors.com or else upload it on the website. Instant Connect to us on live chat for Materials Engineering assignment help & Materials Engineering Homework help
Engineering is the application of mathematics, as well as scientific, economic, social, and practical knowledge to invent, innovate, design, build, maintain, research, and improve structures, machines, tools, systems, components, materials, processes, solutions, and organizations.
The discipline of engineering is extremely broad and encompasses a range of more specialized fields of engineering, each with a more specific emphasis on particular areas of applied science, technology and types of application.
The term Engineering is derived from the Latin ingenium, meaning "cleverness" and ingeniare, meaning "to contrive, devise". The creative application of scientific principles to design or develop structures, machines, apparatus, or manufacturing processes, or works utilizing them singly or in combination; or to construct or operate the same with full cognizance of their design; or to forecast their behavior under specific operating conditions; all as respects an intended function, economics of operation or safety to life and property.
Engineering has existed since ancient times as humans devised fundamental inventions such as the wedge, lever, wheel and pulley. Each of these inventions is essentially consistent with the modern definition of engineering.
The term engineering is derived from the word engineer, which itself dates back to 1390 when an engine'er (literally, one who operates an engine) originally referred to "a constructor of military engines." In this context, now obsolete, an "engine" referred to a military machine, i.e., a mechanical contraption used in war (for example, a catapult). Notable examples of the obsolete usage which have survived to the present day are military engineering corps, e.g., the U.S. Army Corps of Engineers.
The word "engine" itself is of even older origin, ultimately deriving from the Latin ingenium (c. 1250), meaning "innate quality, especially mental power, hence a clever invention."
Later, as the design of civilian structures such as bridges and buildings matured as a technical discipline, the term civil engineering entered the lexicon as a way to distinguish between those specializing in the construction of such non-military projects and those involved in the discipline of military engineering.
Here are the answers to the guide questions:
1. Petroleum engineers maintain the conditions of every oil pumping machinery or preventing natural disaster on the drilling field and to find out where is the most oil deposit sites.
2. Aerospace engineering deals with mathematic and physics of airplanes.
3. Some of the best schools in terms of engineering are:
- Mapua Institute Of Technology
- University Of Santo Tomas
- Technological Institute Of The Philippine
- Bulacan State University
- De La salle University – Manila
4. The 6 main types of engineering are:
- Civil engineering
- Mechanical engineering
- Chemical engineering
- Petroleum engineering
- Electrical engineering
Mechanical engineering is concerned with the design, development, and manufacture of machines. Mechanical engineers study how materials behave under forces and stresses, and use this knowledge to design tools, engines, vehicles, heating and cooling systems, and other machinery. They are involved in all aspects of energy production and conversion. Mechanical engineers use mathematics and science to solve problems, and are expected to constantly improve designs. They may work in research and development, manufacturing, maintenance, technical sales, administration, or management. The field covers a broad range of industries and specializations.
Civil engineering involves planning, designing, constructing, and maintaining infrastructure projects. The document discusses the main branches of civil engineering, including structural engineering (design of buildings, bridges, etc.), geotechnical engineering (soils and foundations), transportation engineering (roads, rail, airports), environmental engineering (water treatment, pollution control), and water resources engineering (dams, irrigation, flood control). It provides examples of the types of projects within each branch and potential career paths in both public and private sectors.
This document discusses the definition of technology and engineering. It defines technology as the outcome of engineering, which is the application of math and science knowledge to develop ways to use natural forces and materials for humanity's benefit. Engineering involves designing under constraints to improve quality of life. Examples of technology include machines, vehicles, infrastructure, electronics, and more. Engineering fields involve research, development, testing, analysis, design, manufacturing, construction, and more. The document outlines many engineering specializations and career paths. It argues that introducing engineering design concepts to students in their first year helps concretize complex concepts and develop important job skills.
There are eight major disciplines within civil engineering: structural engineering, which deals with analyzing and designing structures; geotechnical engineering, which assesses soil and rock properties; water resources engineering, which manages water resources; environmental engineering, which protects human and environmental health; construction engineering, which plans and manages construction projects; transportation engineering, which designs transport systems; materials engineering, which studies construction materials; and surveying, which maps land and contours terrain. Each discipline faces unique challenges and utilizes specialized techniques and skills.
The document outlines the syllabus for a mechanical engineering course. It aims to introduce students to fundamental concepts in mechanical engineering, including internal combustion engines, energy systems, machine elements, and manufacturing processes. Students will learn about topics such as thermodynamics, fluid mechanics, heat transfer, power plants, and materials science. Assessment will include assignments, cycle tests, and an end of semester exam. The course seeks to provide students with knowledge of mechanical engineering principles and their applications to benefit society through industrial development and employment opportunities.
Mechanical Engineering: An International Journal (MEIJ)meijjournal
Mechanical Engineering: An International Journal (MEIJ) is a peer-reviewed, open access journal that addresses the impacts and challenges of Mechanical Engineering. The journal documents practical and theoretical results which make a fundamental contribution for the development of Mechanical Engineering.
This journal aims to bring together researchers and practitioners in all Mechanical Engineering aspects, including (but not limited to):
This document provides information to engineering students about career opportunities and employability. It outlines that less than 20% of engineers are employable for core engineering jobs due to a lack of practical skills. It discusses various engineering fields and job roles, including core engineering jobs in different domains as well as non-engineering jobs. It also lists top employers in both private and government sectors. Finally, it emphasizes the importance of practical skills for getting jobs and higher salaries.
This document discusses various engineering fields and career opportunities. It begins by testing the reader's knowledge of engineering and listing prerequisites for engineers. Major fields discussed include mechanical, civil, electrical, electronics, software, mechatronics, computer systems, and telecommunications engineering. Emerging fields and diploma programs are also mentioned. The document emphasizes online learning and using social media for career and business opportunities. It concludes by encouraging readers to pursue their dreams.
Engineering involves applying scientific and mathematical principles to design and implement inventions and systems to meet objectives, while drafting involves preparing technical drawings and plans used in manufacturing and construction. Both fields have a long history dating back to ancient civilizations. Engineers use modeling, testing and problem solving methods to develop innovative solutions, while drafters focus on creating detailed technical drawings and plans to communicate engineering designs. There are many specialized fields within both engineering and drafting.
Mechanical Engineering: An International Journal (MEIJ)meijjournal
Mechanical Engineering: An International Journal (MEIJ) is a peer-reviewed, open access
journal that addresses the impacts and challenges of Mechanical Engineering. The journal documents practical and theoretical results which make a fundamental contribution for the
development of Mechanical Engineering.This journal aims to bring together researchers and practitioners in all Mechanical Engineering aspects, including (but not limited to):
Engineering involves identifying problems and developing solutions, often through creating new technologies. Traditionally focused on infrastructure like bridges and vehicles, engineering now creates many modern products that improve lives. Engineering requires skills in science, math, creativity, and teamwork. Various disciplines include mechanics, vehicles, chemicals, business operations, and more. Aerospace engineering designs and tests aircraft and spacecraft. Agricultural engineering develops sustainable farming and protects natural resources. Biomedical engineering designs medical equipment and technologies to improve healthcare. Building services engineering designs essential systems for structures like heating, lighting, and plumbing.
Mechanical engineering involves several disciplines including applied mechanics, design engineering, mechatronics, and technology and society. Technology and society examines relationships between technology and social issues. Mechatronics combines mechanics, electronics, and software. Design engineering uses CAD and other design programs. Applied mechanics incorporates experimental and computational methods. The field offers various career opportunities at companies like Raytheon and Aerotek requiring a mechanical engineering degree and design software proficiency. The average salary is $78,160 annually and job growth is projected to be 9% through 2020.
Mechanical Engineering: An International Journal (MEIJ)meijjournal
Mechanical Engineering: An International Journal (MEIJ) is a peer-reviewed, open access
journal that addresses the impacts and challenges of Mechanical Engineering. The journal documents practical and theoretical results which make a fundamental contribution for the
development of Mechanical Engineering.This journal aims to bring together researchers and practitioners in all Mechanical Engineering aspects, including (but not limited to):
It will tell information about Engineering courses petroleum engineering,civil engineering,mechanical engineering,aerospace engineering,industrial engineering,chemical engineering,computer science engineering,mining engineering, Electronics and Communication Engineering,Electrical and Electronics Engineering and Materials and Metallurgical Engineering
Mechanical Engineering: An International Journal(MEIJ)meijjournal
Mechanical Engineering: An International Journal (MEIJ) is a peer-reviewed, open access
journal that addresses the impacts and challenges of Mechanical Engineering. The journal documents practical and theoretical results which make a fundamental contribution for the development of
Mechanical Engineering.
This journal aims to bring together researchers and practitioners in all Mechanical Engineering aspects, including (but not limited to):
Introduction to Engineering and Profession Ethics Lecture2-The Engineering Pr...Dr. Khaled Bakro
This chapter discusses preparing for an engineering career. It introduces the engineering profession and provides answers to common questions about engineering. Some key points covered include choosing an engineering discipline, traits of successful engineers, and what engineers do in different fields like civil, electrical, and mechanical engineering. The chapter emphasizes the importance of time management, daily preparation, attending class, getting help, and joining an engineering organization to succeed in an engineering program and career.
Mechanical Engineering: An International Journal (MEIJ)meijjournal
Mechanical Engineering: An International Journal is a peer-reviewed, open access journal
that addresses the impacts and challenges of Mechanical Engineering. The journal
documents practical and theoretical results which make a fundamental contribution for the
development of Mechanical Engineering.
Mechanical Engineering: An International Journal (MEIJ)meijjournal
Mechanical Engineering: An International Journal is a peer-reviewed, open access journal that addresses the impacts and challenges of Mechanical Engineering. The journal documents practical and theoretical results which make a fundamental contribution for the development of Mechanical Engineering.
This journal aims to bring together researchers and practitioners in all Mechanical Engineering aspects, including (but not limited to):
Mechanical Engineering: An International Journal (MEIJ)meijjournal
Mechanical Engineering: An International Journal (MEIJ) is a peer-reviewed, open access journal that addresses the impacts and challenges of Mechanical Engineering. The journal documents practical and theoretical results which make a fundamental contribution for the development of Mechanical Engineering.
The document provides an overview of engineering careers and fields. It discusses 10 main fields of engineering including electrical, mechanical, civil, aerospace, and petroleum engineering. It then focuses on electrical and mechanical engineering, outlining their foundations, what is studied, and common career paths in more detail. Careers in electrical engineering involve circuit design, communications, and power systems, while mechanical engineering careers span industries from automotive to aerospace.
The document announces an alumni lecture series event hosted by the Department of Mechanical Engineering at Karpaga Vinayaga College of Engineering & Technology. The event will feature a lecture from alumnus Mr. Parthiban S, who graduated in 2019 and now works as an Engineer at ZF Rane Automotive India Private Limited. His lecture is titled "Expectations of Industries from Engineering Graduates" and will take place on March 11, 2023.
This document provides an overview of engineering as a career path. It discusses how engineers solve problems using technology, creativity, and academic skills like math and science. Several types of engineering are listed, including civil, chemical, electrical, computer, industrial, and mechanical engineering. The document outlines the engineering process of identifying and defining problems, analyzing them, proposing and selecting solutions, and implementing them. It also discusses the benefits of becoming an engineer such as job satisfaction, variety, challenges, intellectual development, and helping society. Tips are provided for the education needed to become an engineer, including taking math and science courses in high school and college.
Mechanical engineering is concerned with the design, development, and manufacture of machines. Mechanical engineers study how materials behave under forces and stresses, and use this knowledge to design tools, engines, vehicles, heating and cooling systems, and other machinery. They are involved in all aspects of energy production and conversion. Mechanical engineers use mathematics and science to solve problems, and are expected to constantly improve designs. They may work in research and development, manufacturing, maintenance, technical sales, administration, or management. The field covers a broad range of industries and specializations.
Civil engineering involves planning, designing, constructing, and maintaining infrastructure projects. The document discusses the main branches of civil engineering, including structural engineering (design of buildings, bridges, etc.), geotechnical engineering (soils and foundations), transportation engineering (roads, rail, airports), environmental engineering (water treatment, pollution control), and water resources engineering (dams, irrigation, flood control). It provides examples of the types of projects within each branch and potential career paths in both public and private sectors.
This document discusses the definition of technology and engineering. It defines technology as the outcome of engineering, which is the application of math and science knowledge to develop ways to use natural forces and materials for humanity's benefit. Engineering involves designing under constraints to improve quality of life. Examples of technology include machines, vehicles, infrastructure, electronics, and more. Engineering fields involve research, development, testing, analysis, design, manufacturing, construction, and more. The document outlines many engineering specializations and career paths. It argues that introducing engineering design concepts to students in their first year helps concretize complex concepts and develop important job skills.
There are eight major disciplines within civil engineering: structural engineering, which deals with analyzing and designing structures; geotechnical engineering, which assesses soil and rock properties; water resources engineering, which manages water resources; environmental engineering, which protects human and environmental health; construction engineering, which plans and manages construction projects; transportation engineering, which designs transport systems; materials engineering, which studies construction materials; and surveying, which maps land and contours terrain. Each discipline faces unique challenges and utilizes specialized techniques and skills.
The document outlines the syllabus for a mechanical engineering course. It aims to introduce students to fundamental concepts in mechanical engineering, including internal combustion engines, energy systems, machine elements, and manufacturing processes. Students will learn about topics such as thermodynamics, fluid mechanics, heat transfer, power plants, and materials science. Assessment will include assignments, cycle tests, and an end of semester exam. The course seeks to provide students with knowledge of mechanical engineering principles and their applications to benefit society through industrial development and employment opportunities.
Mechanical Engineering: An International Journal (MEIJ)meijjournal
Mechanical Engineering: An International Journal (MEIJ) is a peer-reviewed, open access journal that addresses the impacts and challenges of Mechanical Engineering. The journal documents practical and theoretical results which make a fundamental contribution for the development of Mechanical Engineering.
This journal aims to bring together researchers and practitioners in all Mechanical Engineering aspects, including (but not limited to):
This document provides information to engineering students about career opportunities and employability. It outlines that less than 20% of engineers are employable for core engineering jobs due to a lack of practical skills. It discusses various engineering fields and job roles, including core engineering jobs in different domains as well as non-engineering jobs. It also lists top employers in both private and government sectors. Finally, it emphasizes the importance of practical skills for getting jobs and higher salaries.
This document discusses various engineering fields and career opportunities. It begins by testing the reader's knowledge of engineering and listing prerequisites for engineers. Major fields discussed include mechanical, civil, electrical, electronics, software, mechatronics, computer systems, and telecommunications engineering. Emerging fields and diploma programs are also mentioned. The document emphasizes online learning and using social media for career and business opportunities. It concludes by encouraging readers to pursue their dreams.
Engineering involves applying scientific and mathematical principles to design and implement inventions and systems to meet objectives, while drafting involves preparing technical drawings and plans used in manufacturing and construction. Both fields have a long history dating back to ancient civilizations. Engineers use modeling, testing and problem solving methods to develop innovative solutions, while drafters focus on creating detailed technical drawings and plans to communicate engineering designs. There are many specialized fields within both engineering and drafting.
Mechanical Engineering: An International Journal (MEIJ)meijjournal
Mechanical Engineering: An International Journal (MEIJ) is a peer-reviewed, open access
journal that addresses the impacts and challenges of Mechanical Engineering. The journal documents practical and theoretical results which make a fundamental contribution for the
development of Mechanical Engineering.This journal aims to bring together researchers and practitioners in all Mechanical Engineering aspects, including (but not limited to):
Engineering involves identifying problems and developing solutions, often through creating new technologies. Traditionally focused on infrastructure like bridges and vehicles, engineering now creates many modern products that improve lives. Engineering requires skills in science, math, creativity, and teamwork. Various disciplines include mechanics, vehicles, chemicals, business operations, and more. Aerospace engineering designs and tests aircraft and spacecraft. Agricultural engineering develops sustainable farming and protects natural resources. Biomedical engineering designs medical equipment and technologies to improve healthcare. Building services engineering designs essential systems for structures like heating, lighting, and plumbing.
Mechanical engineering involves several disciplines including applied mechanics, design engineering, mechatronics, and technology and society. Technology and society examines relationships between technology and social issues. Mechatronics combines mechanics, electronics, and software. Design engineering uses CAD and other design programs. Applied mechanics incorporates experimental and computational methods. The field offers various career opportunities at companies like Raytheon and Aerotek requiring a mechanical engineering degree and design software proficiency. The average salary is $78,160 annually and job growth is projected to be 9% through 2020.
Mechanical Engineering: An International Journal (MEIJ)meijjournal
Mechanical Engineering: An International Journal (MEIJ) is a peer-reviewed, open access
journal that addresses the impacts and challenges of Mechanical Engineering. The journal documents practical and theoretical results which make a fundamental contribution for the
development of Mechanical Engineering.This journal aims to bring together researchers and practitioners in all Mechanical Engineering aspects, including (but not limited to):
It will tell information about Engineering courses petroleum engineering,civil engineering,mechanical engineering,aerospace engineering,industrial engineering,chemical engineering,computer science engineering,mining engineering, Electronics and Communication Engineering,Electrical and Electronics Engineering and Materials and Metallurgical Engineering
Mechanical Engineering: An International Journal(MEIJ)meijjournal
Mechanical Engineering: An International Journal (MEIJ) is a peer-reviewed, open access
journal that addresses the impacts and challenges of Mechanical Engineering. The journal documents practical and theoretical results which make a fundamental contribution for the development of
Mechanical Engineering.
This journal aims to bring together researchers and practitioners in all Mechanical Engineering aspects, including (but not limited to):
Introduction to Engineering and Profession Ethics Lecture2-The Engineering Pr...Dr. Khaled Bakro
This chapter discusses preparing for an engineering career. It introduces the engineering profession and provides answers to common questions about engineering. Some key points covered include choosing an engineering discipline, traits of successful engineers, and what engineers do in different fields like civil, electrical, and mechanical engineering. The chapter emphasizes the importance of time management, daily preparation, attending class, getting help, and joining an engineering organization to succeed in an engineering program and career.
Mechanical Engineering: An International Journal (MEIJ)meijjournal
Mechanical Engineering: An International Journal is a peer-reviewed, open access journal
that addresses the impacts and challenges of Mechanical Engineering. The journal
documents practical and theoretical results which make a fundamental contribution for the
development of Mechanical Engineering.
Mechanical Engineering: An International Journal (MEIJ)meijjournal
Mechanical Engineering: An International Journal is a peer-reviewed, open access journal that addresses the impacts and challenges of Mechanical Engineering. The journal documents practical and theoretical results which make a fundamental contribution for the development of Mechanical Engineering.
This journal aims to bring together researchers and practitioners in all Mechanical Engineering aspects, including (but not limited to):
Mechanical Engineering: An International Journal (MEIJ)meijjournal
Mechanical Engineering: An International Journal (MEIJ) is a peer-reviewed, open access journal that addresses the impacts and challenges of Mechanical Engineering. The journal documents practical and theoretical results which make a fundamental contribution for the development of Mechanical Engineering.
The document provides an overview of engineering careers and fields. It discusses 10 main fields of engineering including electrical, mechanical, civil, aerospace, and petroleum engineering. It then focuses on electrical and mechanical engineering, outlining their foundations, what is studied, and common career paths in more detail. Careers in electrical engineering involve circuit design, communications, and power systems, while mechanical engineering careers span industries from automotive to aerospace.
The document announces an alumni lecture series event hosted by the Department of Mechanical Engineering at Karpaga Vinayaga College of Engineering & Technology. The event will feature a lecture from alumnus Mr. Parthiban S, who graduated in 2019 and now works as an Engineer at ZF Rane Automotive India Private Limited. His lecture is titled "Expectations of Industries from Engineering Graduates" and will take place on March 11, 2023.
This document provides an overview of engineering as a career path. It discusses how engineers solve problems using technology, creativity, and academic skills like math and science. Several types of engineering are listed, including civil, chemical, electrical, computer, industrial, and mechanical engineering. The document outlines the engineering process of identifying and defining problems, analyzing them, proposing and selecting solutions, and implementing them. It also discusses the benefits of becoming an engineer such as job satisfaction, variety, challenges, intellectual development, and helping society. Tips are provided for the education needed to become an engineer, including taking math and science courses in high school and college.
The Apprentices Act of 1961 aims to regulate apprenticeship programs to conform with standards set by the Central Apprenticeship Council and utilize industry facilities for practical training. It has been amended over time to expand scope and increase flexibility. The Directorate General of Employment & Training oversees implementation through regional offices. Apprentices must enter contracts and employers and apprentices have obligations under the Act. Apprentices receive stipends and can earn certificates through standardized testing.
The document summarizes research conducted by Rajeeb Das and Timothy Brophy at the University of Florida to better understand faculty engagement in assessment processes and identify opportunities for improvement. Through surveys of assessment coordinators, stakeholder interviews, and faculty focus groups, they identified that faculty value assessment when it is used for student and program improvement. However, influential factors like class size and disciplinary accreditation requirements, as well as misconceptions about reporting requirements, can impact engagement. Based on these findings, the researchers made recommendations like facilitating peer sharing of assessment practices and clarifying reporting guidelines to cultivate greater faculty involvement.
This document provides an overview of the Department of Computer Science and Engineering at an institution. It includes the vision, mission, program objectives, and outcomes of the department. It also details the department profile including intake numbers, affiliations, and achievements. Physical resources like classrooms, labs, staff rooms and library are outlined. The teaching-learning process including academic calendar, course delivery, monitoring, and additional topics covered are described. Evaluation methods, student activities, and future plans are also summarized.
The document describes the Electrical and Electronics Engineering department of V.S.B. Engineering College. It provides information on the department's faculty, students, laboratories, curriculum, projects, and industry interactions. Some key details include that the department has been established since 2002, currently has a intake of 60 UG and 18 PG students, and is NBA accredited. It offers a B.E. in Electrical and Electronics Engineering over 8 semesters. The department has 6 laboratories including an industry supported lab with Tessolve Semiconductor Private Ltd. It outlines the various criteria and processes used for curriculum delivery and student development.
Supermarket Management System Project Report.pdfKamal Acharya
Supermarket management is a stand-alone J2EE using Eclipse Juno program.
This project contains all the necessary required information about maintaining
the supermarket billing system.
The core idea of this project to minimize the paper work and centralize the
data. Here all the communication is taken in secure manner. That is, in this
application the information will be stored in client itself. For further security the
data base is stored in the back-end oracle and so no intruders can access it.
Applications of artificial Intelligence in Mechanical Engineering.pdfAtif Razi
Historically, mechanical engineering has relied heavily on human expertise and empirical methods to solve complex problems. With the introduction of computer-aided design (CAD) and finite element analysis (FEA), the field took its first steps towards digitization. These tools allowed engineers to simulate and analyze mechanical systems with greater accuracy and efficiency. However, the sheer volume of data generated by modern engineering systems and the increasing complexity of these systems have necessitated more advanced analytical tools, paving the way for AI.
AI offers the capability to process vast amounts of data, identify patterns, and make predictions with a level of speed and accuracy unattainable by traditional methods. This has profound implications for mechanical engineering, enabling more efficient design processes, predictive maintenance strategies, and optimized manufacturing operations. AI-driven tools can learn from historical data, adapt to new information, and continuously improve their performance, making them invaluable in tackling the multifaceted challenges of modern mechanical engineering.
This study Examines the Effectiveness of Talent Procurement through the Imple...DharmaBanothu
In the world with high technology and fast
forward mindset recruiters are walking/showing interest
towards E-Recruitment. Present most of the HRs of
many companies are choosing E-Recruitment as the best
choice for recruitment. E-Recruitment is being done
through many online platforms like Linkedin, Naukri,
Instagram , Facebook etc. Now with high technology E-
Recruitment has gone through next level by using
Artificial Intelligence too.
Key Words : Talent Management, Talent Acquisition , E-
Recruitment , Artificial Intelligence Introduction
Effectiveness of Talent Acquisition through E-
Recruitment in this topic we will discuss about 4important
and interlinked topics which are
Road construction is not as easy as it seems to be, it includes various steps and it starts with its designing and
structure including the traffic volume consideration. Then base layer is done by bulldozers and levelers and after
base surface coating has to be done. For giving road a smooth surface with flexibility, Asphalt concrete is used.
Asphalt requires an aggregate sub base material layer, and then a base layer to be put into first place. Asphalt road
construction is formulated to support the heavy traffic load and climatic conditions. It is 100% recyclable and
saving non renewable natural resources.
With the advancement of technology, Asphalt technology gives assurance about the good drainage system and with
skid resistance it can be used where safety is necessary such as outsidethe schools.
The largest use of Asphalt is for making asphalt concrete for road surfaces. It is widely used in airports around the
world due to the sturdiness and ability to be repaired quickly, it is widely used for runways dedicated to aircraft
landing and taking off. Asphalt is normally stored and transported at 150’C or 300’F temperature
Prediction of Electrical Energy Efficiency Using Information on Consumer's Ac...PriyankaKilaniya
Energy efficiency has been important since the latter part of the last century. The main object of this survey is to determine the energy efficiency knowledge among consumers. Two separate districts in Bangladesh are selected to conduct the survey on households and showrooms about the energy and seller also. The survey uses the data to find some regression equations from which it is easy to predict energy efficiency knowledge. The data is analyzed and calculated based on five important criteria. The initial target was to find some factors that help predict a person's energy efficiency knowledge. From the survey, it is found that the energy efficiency awareness among the people of our country is very low. Relationships between household energy use behaviors are estimated using a unique dataset of about 40 households and 20 showrooms in Bangladesh's Chapainawabganj and Bagerhat districts. Knowledge of energy consumption and energy efficiency technology options is found to be associated with household use of energy conservation practices. Household characteristics also influence household energy use behavior. Younger household cohorts are more likely to adopt energy-efficient technologies and energy conservation practices and place primary importance on energy saving for environmental reasons. Education also influences attitudes toward energy conservation in Bangladesh. Low-education households indicate they primarily save electricity for the environment while high-education households indicate they are motivated by environmental concerns.
Generative AI Use cases applications solutions and implementation.pdfmahaffeycheryld
Generative AI solutions encompass a range of capabilities from content creation to complex problem-solving across industries. Implementing generative AI involves identifying specific business needs, developing tailored AI models using techniques like GANs and VAEs, and integrating these models into existing workflows. Data quality and continuous model refinement are crucial for effective implementation. Businesses must also consider ethical implications and ensure transparency in AI decision-making. Generative AI's implementation aims to enhance efficiency, creativity, and innovation by leveraging autonomous generation and sophisticated learning algorithms to meet diverse business challenges.
https://www.leewayhertz.com/generative-ai-use-cases-and-applications/
Impartiality as per ISO /IEC 17025:2017 StandardMuhammadJazib15
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Null Bangalore | Pentesters Approach to AWS IAMDivyanshu
#Abstract:
- Learn more about the real-world methods for auditing AWS IAM (Identity and Access Management) as a pentester. So let us proceed with a brief discussion of IAM as well as some typical misconfigurations and their potential exploits in order to reinforce the understanding of IAM security best practices.
- Gain actionable insights into AWS IAM policies and roles, using hands on approach.
#Prerequisites:
- Basic understanding of AWS services and architecture
- Familiarity with cloud security concepts
- Experience using the AWS Management Console or AWS CLI.
- For hands on lab create account on [killercoda.com](https://killercoda.com/cloudsecurity-scenario/)
# Scenario Covered:
- Basics of IAM in AWS
- Implementing IAM Policies with Least Privilege to Manage S3 Bucket
- Objective: Create an S3 bucket with least privilege IAM policy and validate access.
- Steps:
- Create S3 bucket.
- Attach least privilege policy to IAM user.
- Validate access.
- Exploiting IAM PassRole Misconfiguration
-Allows a user to pass a specific IAM role to an AWS service (ec2), typically used for service access delegation. Then exploit PassRole Misconfiguration granting unauthorized access to sensitive resources.
- Objective: Demonstrate how a PassRole misconfiguration can grant unauthorized access.
- Steps:
- Allow user to pass IAM role to EC2.
- Exploit misconfiguration for unauthorized access.
- Access sensitive resources.
- Exploiting IAM AssumeRole Misconfiguration with Overly Permissive Role
- An overly permissive IAM role configuration can lead to privilege escalation by creating a role with administrative privileges and allow a user to assume this role.
- Objective: Show how overly permissive IAM roles can lead to privilege escalation.
- Steps:
- Create role with administrative privileges.
- Allow user to assume the role.
- Perform administrative actions.
- Differentiation between PassRole vs AssumeRole
Try at [killercoda.com](https://killercoda.com/cloudsecurity-scenario/)
2. What are the Different Fields in
Engineering?
• Electrical and Computer
• Mechanical and Civil
• Aerospace
• Petroleum and Chemical
• Industrial
• Acoustics
• Biomedical
• Materials
• Nuclear
• Agricultural
• Environmental
• Ocean
http://www.hku.hk/bse/about-bse.htm
3. What is Engineering?
• An engineer is a person who
uses scientific knowledge to
solve practical problems
• Engineers create new things
and make old things better
4. What will you study as a
Engineering student?
• Forces, motion, structures: statics, dynamics, kinematics, mechanics of
solids, and fluids.
• Energy: thermodynamics, heat transfer, chemical reactions
• Materials: materials engineering & processing, manufacturing.
• Design: graphics, computer design applications.
• Electronics: Circuits and electricity
• Economics: engineering economic analysis, cost engineering.
• Human and Social Studies: arts, humanities, social sciences, history,
government, ethics, law.
• Overall foundation: math, physics, chemistry, biology, analysis skills,
communication skills, computation skills.
5. What Engineers Do?
• Engineers cover a variety of tasks
in general. They create and fix
almost everything.
• Some of the major fields in
engineering are:
– Mechanical
– Civil
– Electrical
– Computer
– Ocean
– Agricultural
– Environmental
– Petroleum
– Aerospace
– And Chemical
http://www.fotosearch.com/DGV130/064002
6. Aerospace Engineering
• Design, analyze,
model, simulate,
and test aircraft,
spacecraft,
satellites, missiles,
and rockets
• This field also
focuses on
electronics and
computer
technology rather
than just physical
dynamics.
7. Aerospace Engineering
• Includes more than just
designing aircraft
• Aerospace deals with
the motion of flight
outside and inside the
Earth’s atmosphere
• This includes motion of
satellites, control
systems in unmanned
aircraft, and even
machines and tools
created specifically for
the exploration of
space like the Mars
Rover http://aero.tamu.edu/photos/slides/s_d0d48734cc1b532b29bddb27bb28b8e8350648ad.JPG
8. Foundations in Aerospace
• Includes the study of:
• Mathematics
• Physical dynamics
• Heat transfer
• Fluid dynamics
• Electrical circuits
• Design analysis
http://aero.tamu.edu/photos/slides/s_43f64e20904b04f3975ea83caadc79815e5440b8.JPG
9. Foundations in Aerospace
• Should develop the fundamental skills
necessary for:
– the design,
– synthesis,
– analysis and research development of aircraft,
– spacecraft and other high technology flight
systems
10. Careers in Aerospace
• Design and test different
technologies for space and
motor vehicles
• Work with communications and
• navigation systems
• Design and test different types
of helicopters or other airborne
technologies for governmental
use
• Locations for careers are very
diverse throughout united states
• Aerospace engineer at Boeing
Airline company
• Engineer for NASA
• Engineer for military and other
government controlled agencies
• Air Traffic controller for any
airline company
• Ford, Honda, Toyota, or any
other motor vehicle company
• Pilot Astronaut
• Professor/teacher
• Working for a scientific,
professional, or technological
service firm
11. Electrical Engineering:
• Electrical engineering is a
field of study with a broad
scope and significant impact
on society
• Is an engineering field that
deals with the study and
application of electricity,
electronics and
electromagnetism
12. Foundations in Electrical
• Physics
• Mathematical
analysis
• Optics
• Circuits
• Electricity flow
• Computer systems
http://upload.wikimedia.org/wikipedia/commons/thumb/3/32/HitachiJ100A.jpg/514px-HitachiJ100A.jpg
13. Careers in Electrical
• Design, develop, test and supervise the
deployment of electrical systems and
electronic devices
• Usually specialize in circuit design,
communications, controls and signal
processing, computer engineering, and
different types of power systems
• Study in this field can branch into
computer engineering and/or computer
science
Patent lawyer (law degree required)
Software designer for animation
software (Pixar)
Artificial intelligence researcher
Computer game designer
Special effects engineer for movies
Information security (cryptography)
Race car designer (electrical
components)
Alternative energy systems developer
(wind power, electric cars)
Electronics designer
Digital assistant/cell phone/iPod
developer
Optical laser scientist and developer
14. Chemical Engineering
• Chemical Engineers use
their knowledge of
chemistry to discover and
manufacture better
plastics, paints, fuels,
fibers, medicines and all
other kinds of chemicals,
by carrying out chemical
reactions and
purifications.
http://www.engin.umich.edu/dept/cheme/images/sean.jpg
15. Foundations in Chemical
• Study the fundamentals of:
– chemistry (basis of field)
– physics and mathematics
– Thermodynamics
– Material physics
– Microelectronics
– Reaction engineering
• Education in this field will allow you to use
elements from all areas of engineering, science,
mathematics
16. Careers in Chemical
• Frequently specialize in a
particular chemical process
such as polymerization or
oxidation
• Can specialize in a particular
field, such as materials science,
or the development of specific
products such as and pesticides,
fertilizers, chlorine bleach, or
automotive plastics
• Professor/Teacher
• Working for a scientific,
professional, or technological
service firm
• Working for governmental
agencies:
– Military interaction
• Working for industries such as:
– Pharmaceutical
– Oil and Natural Gas
– Nuclear energy
– Minerals and metals
– Textiles
17. Petroleum Engineering
• Petroleum engineers use their
knowledge of physics to extract
valuable oil and natural gas from
beneath the earth.
• Petroleum engineers design,
drill and operate wells and
well systems, and integrate
this into the management of
the underground reservoirs
in which the resources are
found
18. Foundations in Petroleum
• Study the fundamentals
of:
– Geology
– Physics
– Mathematics
– Fluid dynamics
– Reservoir Development
– Heat transfer
http://www.pe.tamu.edu/homepage/graphics/homepics/pe6.jpg
19. Careers in Petroleum
• Best employment opportunities
are in other countries
• U.S. Careers are mostly located
in the southwest such as Texas
and Louisiana
• Design and construct different
methods of extracting natural
resources from the earth
• Reservoir engineer (working in
close relation to geologists)
• Mud engineer (examines and
tests oil content)
• Design engineer for companies
such as ConocoPhillips and BP
• Construction engineer for
contracting companies such as
Trinidad, Nabors, and Grey
Wolf
• Professor/Teacher
20. Civil Engineering
• Civil engineers
design and build
many systems that
are central to
everyday life
• Civil engineers plan,
design, construct,
operate, maintain,
inspect and manage
bridges, buildings,
offshore structures,
airports, seaports,
railroads, highways,
waterways, dams and
water treatment
plants, and many
other public facilities.
http://sf.metblogs.com/archives/images/2006/06/160593862_65cb0d993d_b-thumb.jpg
21. Civil Engineering
• They work to prevent or minimize damage
due to natural disasters
• Civil engineers also work to reduce air,
water and soil pollution, develop alternative
energy sources and improve congested
transportation systems.
22. Foundations in Civil
• Mathematics
• Physics
• Structural Analysis
• Materials Science
• Fluid dynamics
• Thermodynamics and heat transfer
23. Careers in Civil
• Design facilities that vary
widely in nature, size, and
scope and include space
satellites and launching
facilities, offshore
structures, bridges,
buildings, tunnels,
highways, and many
more!
• Opportunities all across
the world as a civil
engineer
• Bridge Design
• Water-way and waste
treatment design
• Traffic control
• Beach Protection (coastal
civil engineering)
• Tunnel design
• Mining (ocean and land)
• Wildlife protection
24. Mechanical Engineering
• Mechanical engineering is
one of broadest studies in
engineering
• The design and creation of
mechanical technologies
that benefit society
• They utilize power to
work with all types of
mechanical devices, and
all types of manufacturing
and plant designs
http://www.mengr.tamu.edu/news/articles/1.gif
25. Foundations in Mechanical
• Mathematics
• Physics
• Thermodynamics and
heat transfer
• Materials science
• Gears and systems
• Fluid mechanics
• Structural Analysis
26. Careers in Mechanical
• Work in a diverse range of
industries from automotive to
aerospace and petroleum
• Can be applied to other
engineering fields as well
• Develop everyday power-using
machines such as refrigerators
and air conditioning units
• Design and test different types
of mechanical parts such as
gear systems and jet engines
• Law firm (law Degree required)
• Jet engine design (General
electrics)
• Mechanical gears technician
• Race car design
• Aircraft Design (NASA,
Boeing)
• Offshore drilling and natural
gas extraction (BP,
ConocoPhillips)
• Automotive transportation
(General Motors, Ford, Honda)
• Professor/Teacher
27. Ocean Engineering
• Engineers in this field
design and test
different technological
systems that withstand
the harsh conditions of
the ocean
http://oceaneng.civil.tamu.edu/Images/22_sm.jpg
29. Careers in Ocean
• Involved in:
– exploration and exploitation
of offshore gas and oil
fields by working in
conjunction with petroleum
engineers,
– designing fixed and floating
offshore structures,
– searching for economical
methods for extracting
energy from the oceans,
• Research Firms
• Professor/Teacher
• Marine navigation and other
governmental agencies
• Offshore Drilling companies
• Analysis and design of deepwater
and coastal structures
• Beach nourishment
• Bridge scour
30. Environmental Engineering
• Utilizes different
techniques that improve
the environment:
• Includes water and air
pollution control,
recycling, waste
disposal, and public
health issues
• Environmental engineers
also work in conjunction
with civil engineers to
evaluate impact of
construction on the
environment
http://cagesun.nmsu.edu/programs/environment/front.jpg
31. Foundations in Environmental
• Most environmental engineers begin as Mechanical, civil,
or chemical engineers
• Mathematics
• Physics
• Chemistry
• Thermodynamics and heat transfer
• Materials science
• Gears and systems
• Fluid mechanics
• Structural Analysis
• Reaction engineering
32. Careers in Environmental
• Involved in water and air
pollution control, recycling,
waste disposal, and public
health issues
• Study and attempt to minimize
the effects of acid rain, global
warming, automobile
emissions, and ozone depletion
• Also involved in the protection
of wildlife
• Environmental engineers help
to comply with environmental
regulations and to clean up
hazardous sites
• Wildlife protection
• Water treatment plants
• Beach restoration
• Pollution control
• Government and military
interaction
• Containment engineering
33. Agricultural Engineering
• Applies engineering
technology to
agricultural production
and processing, and to
the management of
natural resources
• Agricultural engineers
design agricultural
structures, equipment,
and agricultural
machinery, that benefit
the production of
natural resources http://www.unb.ca/civil/hydro/standre.JPG
35. Careers in Agricultural
• Designing and managing
food production systems
• Protecting surface and
ground water quality
• designing natural resource
management systems
• Designing animal
production facilities and
environmental control
systems
• Can work anywhere in the
United States
• Food safety research
• Soil restoration
• Crop Production
• Design irrigation systems
• Design controlled farm
structures (housed
livestock, greenhouses,
silos)
• Flood and water control
36. Other titles and careers in
Engineering:
• SALES ENGINEER
• RESEARCH SCIENTIST/ENGINEER
• ARRANGEMENT ENGINEER (M/F) POWER PLANT ENGINEERING
• PIPING ENGINEER/CALCULATION SPECIALIST (M/F)
• SPECIALIST (M/F) FOR VALVE TECHNOLOGY
• MARKETING ENGINEER
• TRANSPORTATION ENGINEER 3
• SR. QUALITY ENGINEER FOR MATERIALS MANAGEMENT SR. SUPPLIER
QUALITY MANAGEMENT (SQM)
• CIVIL ENGINEER/STRUCTURAL
• REGISTERED CIVIL ENGINEER/STRUCTURAL PROJECT DESIGN ENGINEERING
PLANNER-SCHEDULER
• TEACHER/PROFESSOR
• SECURITY SYSTEMS ENGINEER IV
• VEHICLE CONTROL SYSTEMS ENGINEER REGIONAL SALES ENGINEER/SALES
EXECUTIVE
• PROCESS ENGINEER MODELING ENGINEER I
• ASSOCIATE INDUSTRIAL ENGINEER MECHANICAL ENGINEER
• STRUCTURAL ENGINEER SOLIDWORKS DESIGNER
• APPLICATIONS ENGINEER
37. Career Paths in General
• Industry
• Teaching/Education
• Graduate School
• Entrepreneur/Business Owner
• Research Labs
• Military
• Government
• Preparation for other Professions (law,
medicine, etc.)
38. Skills associated with engineering:
• Strong interest in math and science
• Strong social awareness and concern for quality of
life
• Desire to put ideas into action
• Strong academic background
• Ability and determination to succeed; continuing
education
• Good communication skills
• Teamwork
39. Conclusion
• Engineering is a field that requires
dedication and focus.
• If you enjoy math and science, this is a
great field to pursue.
• It is a challenging but also exciting and
highly satisfying career