Month: October 2015

Aerospace Engineering

The aerospace engineer concerned with the design, analysis, construction, and operation of flight vehicles, including airplanes, helicopters, missiles and spacecrafts. The course is based on the fundamentals of hydraulics, materials science, structural analysis, power, aerospace design, automatic control and guidance, and the development of computer software.

agriculture engineering

With the increase in interest rates and the related industrial potential, Indian agriculture has been accorded the status of industry. The course of Agricultural and Food Engineering aims to produce graduates of engineering to meet the demands of technical manpower in the development of farm machinery, land and water management, agricultural production and the production of processed food. To meet the current demand for agriculture and food, of course, has been suitably modified to include specialized training in the design, development, testing and selection of tractors and farm implements, irrigation, drainage and watershed management using remote sensing and GIS; information technology, food processing, feed and fiber, the utilization of biomass, byproducts and waste in the production of biochemicals, fuel, fertilizer and alternative energy. The course provides ample flexibility for students to gain knowledge of any of the three main areas of specialization, namely, the Farm Power Machines, soil and water Conservation Engineering and Food Engineering Process.

biotechnology

The goal of this program is to prepare students, both in theory and practice, for leadership in the global competitive field of Life Science, pharmaceuticals, biotechnology industry, academia and research. The program has been developed to meet the growing demand in these industry sectors and researcth. Students of this program will find unique opportunities for employment and research in the field of biomedical engineering, drug design, bioinformatics, biotechnology, nano-biotechnology, genomics, etc. The course is intended to present biology as an experimental science, in contrast to the commonly accepted idea that descriptive content. Students will also find the application of a wide range of technologies in the physical, chemical and Mathematics for the design, implementation and interpretation of experiments in biology.

Chemical Engineering

Chemical engineers work in diverse fields such as petroleum refining, fertilizer technology, food processing and agricultural products, prepared food, petrochemicals, synthetic fibers, coal and mineral-based industries and the prevention and control of pollution environment. Chemical engineering is concerned with the development and improvement of processes, design, construction, operation, management and security of plants for these processes and research in these areas.

construction

engineer is concerned with planning, analysis, design, construction and maintenance of various facilities such as buildings, highways and railways, airports, waterways and canals, dams and power houses, water treatment and waste water disposal, environmental quality control, docks and ports, bridges and tunnels. Engineer is also necessary to deal with the critical problems of modernity, such as disaster mitigation and management, building offshore structures for oil production,

Chemical Engineering

Some chemical engineers to make design and find new methods. Some build equipment and facilities. Some plan and operate the facilities. Chemical engineers have helped develop atomic science, polymers, paper, dyes, pharmaceuticals, plastics, fertilizers, food, petrochemicals … pretty much everything. They devise ways to make products from raw materials and ways to convert one material into another usable form. Chemical engineers can make the process more efficient or environmentally friendly or efficient. As you can see, a chemical engineer to find a niche in a scientific or engineering field

Mechanical

Mechanical engineers design and develop all that you think about as well -. From supersonic fighter jets to bicycles to toasters. And they influence the design of other products as well – shoes, light bulbs and even doors. Many mechanical engineers specialize in areas such as manufacturing, robotics, automotive / transportation, and air conditioning. Others go to the other disciplines, working on everything from artificial organs in the emerging field of nanotechnology. And some use a mechanical engineering degree of preparation for the practice of medicine and law. The mechanical engineer may design a part, machine, system or process. Mechanical engineers analyze their designs using the principles of motion, energy and force to ensure the product functions safely, efficiently, reliably and can produce at competitive prices.

Electronic

Electrical engineering is concerned with the main energy sources that run our world. Whether it’s gas, water, turbine, fuel cell, solar, geothermal, or wind energy, electronics engineers deal with the distribution of this energy from its source to our homes, factories, offices, hospitals and schools. Electrical also includes exciting field of electronics and information technology. Do you have a cell phone or computer? Wireless communications and the Internet are just a few areas of electrical engineering has helped flourish, by developing better phones, more powerful computers and high-speed modem. As we enter the 21st century, technology that surrounds us will continue to expand and electronics engineers are le way

electronics and communication engineering

Design, create, maintain, monitor and production electronic equipment used in entertainment media, in hospitals, in the computer industry, communications and defense. Electronics engineers work with devices that use a very small amount of power. They work with microprocessors, fiber optic, and radio, TV and radio.

production engineering

This deals with integrated design and efficient planning of the entire production system, which is becoming increasingly complex with the advent of advanced, production and control. Job Scope: Opportunities are available in the public and private sector production organizations involved in the implementation, development and management of new production, information and control systems and computer-controlled inspection, assembly and handling. Biomedical Engineering: Biomedical Engineering (BME) is the application of engineering principles and techniques to the medical field. It combines the design and problem solving skills of engineering with medical and biological sciences to improve patient health and quality of life of individuals.

engineering materials

New materials have been among the greatest achievements of all ages and they have been the center of growth, prosperity, security and quality of life from the beginning of history. There’s always new material opens the door to new technologies, whether they are civil, chemical, construction, nuclear power, aviation, agriculture, mechanical, biomedical science or electrical engineering.

computer-aided design (CAD) is a type of computer-based tool used to model and design. CAD is useful in a variety of design fields such as architecture, mechanical and electrical fields are some of them. This is a type of software that allows users to create a faster and more accurate drawings and rough sketch plans major products. It provides a flexible pattern of drawing process that users can change as required under their case with minimum efforts.

CAD is not only made for certain artists, but has diversified to entertain all kinds of design enthusiasts. This software has all the built in features such as the users do and comes with many templates and symbols to him and purpose, which gives it a wide range of applications. It is the main geometry-authoring tool used for all 2D and 3D design purposes. It is useful for engineers, architects and other design professions.

CAD is used in mechanical, automotive, aerospace, consumer goods, machinery and shipbuilding applications. In this area, it is used to design a variety of machines and tools that are useful for the production. In the field of electronics, it is used in the production planning, digital circuit design and other software applications. In the field of architecture, it is used as an effective tool for designing all types of buildings and assess the integrity of steel-framed buildings. It allows them to design buildings in 2D and 3D models to provide almost real imitation of the original work. It is useful in engineering processes in the conceptual design and lay out and identify objects in the process. Computer Aided Software Applications are now available on personal computers to enable users to work from home.

Many professionals use CAD software for accurate and creative advantages. Lower product development costs and reduced design cycles are some other qualities CAD software. Many educational institutions are nowadays indulging in teaching CAD students to make them aware of the latest technological advances in the field of design.

Whether you want to get a degree or update engineering knowledge, you might want to look at taking engineering courses online. Whether you are a traditional college student or a busy professional, online learning has significant advantages over traditional brick-and-mortar college education. This is especially true of discipline like engineering, where Electronic Learning is the norm rather than the exception.

advantage of distance learning is distance. Distance learning means that you can take classes without being physically present where the students are taught. This is even truer of online distance learning, where your classroom is where you can find a computer with an Internet connection. In addition to being easy, which means you can learn from the best of the best, no matter where you are.

learn from the best

For example, say you want to learn a little bit about mining engineering, and your school does not offer mining classes. You can take engineering courses online at the Colorado School of Mines or the Montana School of Mining and Engineering, two best mining engineering programs in the country. Those classes will move to the current school and count towards your degree.

Or maybe you are working on computer engineering tasks, and you read a journal article about some work that MIT is doing in the field. You can take engineering courses online from MIT to learn the latest advances in computer engineering. You can probably even take a class of people who did the work you read about and take their brains in the process.

adult

It goes without saying that online learning is easier to fit into your schedule than traditional classes, but there is another reason to take some engineering online courses could be better than to take them to regular school, online learning is structured around adult, than traditional learning is structured around teaching or child education.

Adults learn differently than children do, and distance learning programs were developed for adult students. Online Learning begins with different assumptions about how students learn than traditional learning does. Content categories can be like, and how learning is based is not.

Adult learners are self-motivated, independent students. They bring life experience and professional knowledge to the band. They prefer hands-on learning and they do not like to learn irrelevant things. They want to be able to use what they are learning

Take some engineering courses online capitalizes on all the advantages of online learning: .. Portability, flexibility, learning from the best and learn how you learn best

The preliminary requirement for conceptualizing or building anything is engineering; and it is an Established Fact That its consulting is way better than inter acting with an individual.

Consulting services Offers Several benefits

A consulting firm Will engage a group of Experts WHO bring Their experience Into your project. They are goal oriented and take Into account Important scientific and economic factors. They understand the project and related problems and come up with intelligent cost-effective interventions options to benefit the parent party.

The best part of consulting against working with an individual is that Many Minds come together, Debate, deliberateness and construct a viable solution. This may not be skies while working with a single engineer. After all a consulting team Will constitute, not just engineers, but Technologists, business analysts and other domain Experts.

Obviously When a team of Experts from related fields, work together under a mechanical engineering consultant, the Collaborative effort along with the Several Important and complex factors That eventually Contribute to the success of the project are Taken Into Account.

The basic concept of consulting is to help businesses meet theirscreens design and construction needs. The requirement may range from building a completely new structure replete with heating, air-conditioning and electrical fittings or renovating an existing, building to suit client requirement.

Consultants offer a range of services in building science and engineering That include land assessment, building plans, landscaping, inspect and repair existing, structures and more. Firms make use of quality software Such as CAD and the like to create Create mechanical assemblies based on Assessments.

Advanced engineering consulting includes: Analysis, diagnostics, design and operation of mechanical systems; EXPERTISE in fracture of manufacturing materials; mechanics as well as the dynamics of fluid flow; and thermo dynamics.

Basically a modern mechanical engineering consultant works on everything from transportation, food production, building, energy generation to electronic devices. They Improve Clients’ business processes by providing quality solutions.

Every consulting firm must take the Following steps to popularize Their service:

• Carry out an extensive market research to identify potential business.

• Define services so That prospective Clients get a basic understanding of the services

• Have a website That Clearly highlights consulting services

Advanced engineering consulting

Accomplished consultants Provide quality, safe and cost-effective interventions consulting services. They have the Capability to createTextNode digital representation of mechanical drawing layers so the client That Can Actually see the shape the business superintends to give the project. Services include: 2D drafting, parametric modeling, assembly modeling, production drawings, bill of materials etc.

Mechanical engineering services include: design and drafting; manufacture design; safe load tables; load testing; forensic and failure analysis; Gantry cranes design and Verification; car platforms and hoists; Non destructive testing; mechanical drafting; simulation; 3D rendering; vibration and fatigue analysis; hydraulic cylinders, vehicle hoists and platforms Among other things.

The consultants are expected to adheres to strict quality standards That include:

Identification of hazards; risk management; safety equipment for working at heights; construction of safe work platforms; man boxes, Cages; manual handling aids and more.

Engineering has been in many forms for much longer than many would expect. Even some of the basic inventions requires a certain amount of skill and intelligent design techniques. For example, the seemingly simple invention like the bike needs a talented engineer to come up with the initial concept.

Some of the first engineering projects were simply based on trial and error. Imaginative and creative people with good technical skills would try and design and put things together, make some truly brilliant inventions.

Imhotep was possibly the first recognized engineer who built the Step Pyramid in Egypt. He was quite powerful and influential person who came up with the first idea of ​​the pyramid and then made the construction of reality by 2550 f.Kr ..

Engineering was taken from the “Engineer” was first coined in the 1320’s. At this time in history, Engineering was closely linked to the creation of various military equipment and machinery.

Engineering took a slightly different turn when people started to learn how to design and create the foundation for building structures. Buildings and other structures started to become more functional and complex thanks to the birth of construction.

Electrical began to emerge when William Gerber began to be recognized for their work. He did a lot of research and writing of electricity and significantly affect the onset of electrical engineering.

Engineering actually became a respected job and influential form of work in the 18th century when it began to form strong relationships with science and mathematics.

Many believe that the early stages of modern engineering started a scientific revolution. At this point in history, people began to realize that they could design components, machinery and equipment that could replace the need for physical human activity. For example, Thomas Savery designed and built the very first steam engine in the late 1690’s. Steam engine provided form of transport that could deal with large quantities of goods and products that kick started the birth of mass.

The rise of the industrial revolution demanded new materials and the resulting chemical production. Chemical engineering was coined around this time because they had to think of new ways to make products from raw material and apply it to mass production. They were also to be bale to take existing content and customize it to use for other purposes.

Computer Aided Manufacturing (CAM) refers to the automation process, the exact converter design and drawing or object into code format readable by a machine to produce the product. Computer aided manufacturing complementary computer-aided design (CAD) system to provide a wide range of applications in different areas of production. CAM developed from technology used in Computer Numerical Control (CNC) machines that were used in the early 1950s CNC involved the use of coded instructions on punched paper tape and could manage single action production. CAM controlled computer systems, however, can control the whole set of production functions simultaneously.

CAM allows work instructions and procedures to be sent directly to production machines. A CAM system manages production activities performed by robotic milling machines, lathes, welding machines and other industrial tools. It moves raw materials for different machines within the system by allowing systematic complete each step. Finished products can also be performed within the system to complete other functions of production, such as packaging, construction and make final checks and adjustments.

Some of the major programs in CAM systems are glass work, wood turning, metalworking and improvisation and visual optimization of the entire production process. Production of solids rotation, surfaces, and screw threads is done by using CAM systems.
A CAM system allows the production of three-dimensional solids, with ornamental lathes with more intricacy and detail. Products like candlestick holders, table legs, bowls, baseball bats, crankshafts and camshafts can be prepared by CAM system. CAM system can also be applied to the process of turning the diamond to produce a diamond tipped cutting material. Aspheric optical glass, crystals, and other metals can also be prepared by the CAM system.
Computer aided manufacturing can be applied in the fields of mechanical, electrical, industrial and aerospace engineering. Applications such as thermodynamics, fluid dynamics, solid mechanics and kinematics can be controlled by CAM systems. Other programs such as electromagnetism, ergonomics, aerodynamics and propulsion and materials science can also use computer aided manufacturing.

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Add Re-Engineering is the latest buzzword around, keeping in view the volatile economic situation. If you are doing business, working in the organization, run their own hospital etc you may encounter this phenomenon on the course. Re-Engineering means to develop a vision of the product and review all the best possible ways to deliver it in the light of modern technology.

need for re-engineering will be inevitable for the following reasons.

• Cost

• Quality

• Service

• Speed ​​

expenses and costs, product quality has deteriorated significantly and / or customer complaints have increased significantly and slowing the pace of that work.

There are some main elements of Re-Engineering, such as;

• A fundamental re-think

• Radical redesign

• dramatic results

• Process

By fundamental rethinking means to start or, in other words reinventing the wheel. It requires time and efforts.The radical redesign means downsizing or rightsizing, which ends with the elimination of many jobs working in the organization. The whole phenomenon defined by Hammer and James as a “fundamental revision and radical redesign of planning, in order to achieve dramatic results and improve current performance in cost, services and speed.

consequences re- Engineering

It is often seen that the re-engineering efforts have been made in any organization with the goal to get dramatic results, it failed miserably because there is no guarantee the first results of this activity. The other problem is the morale and self-esteem of workers goes down over time they became frustrated, disappointed because of job insecurity. Concept bright sizing is also used in this context, that means bright thy people may stop other institution with a sense that they may be the next victim downsizing.Most of the time the same person go critical customers and business to your competition.

Why not Re-Engineering

There is a quick fix in a tragic situation to reduce costs, improve profitability and ensure that the organization is back action. However, there are certain ways to eliminate and avoid re-engineering the most powerful among them is Japanese management concepts such as Kaizen method of continuous incremental improvements. That means quality, effort and participation of all employees, willingness to change and communication.

Although it is difficult to give general advice that it fits well in incremental change situations that require long-term changes, but most of the agency has focused on short-term results.

At the end of what I do is that the organization must monitor the latest technology, are small changes constantly in the system to encourage its employees. When used correctly, these steps can enable an organization to redefine, refine, and constantly improve their effectiveness and efficiency.

Every year 1.8 million workers experience injuries related to ergonomic risk. 600,000 of them are injured seriously enough to miss time from work. Technical supervision, changes in equipment designed to reduce the risk that can cause these ergonomic injuries.

Equipment changes can not improve ergonomic issues in all cases, but where they can they are the preferred method of control because they offer permanent solutions. In the industrial workplace engineering controls involve reducing awkward position or prolonged, heavy lifting and recurring recommendations. Sometimes simple changes can reduce the physical stress of work. As new equipment is required, manufacturers now offer ergonomic design for industrial equipment. The following are some examples of the many ways of engineering controls can reduce the risk of ergonomic injury. Work Table height adjustments reduce excessive forward bending and arm lift

Appropriate height depends on the task being completed, used, and the size of the staff :. For close visual inspection, hands should be slightly higher than elbow height. For light assembly, hands should be slightly below elbow height. The table may need further adjustment depending on the height of the assembly parts or containers. For work that requires much force, the table should be at elbow height. Employees must be able to operate height adjustment control without the use of violence or awkward postures. Adjustable work surfaces but can be raised and lowered easily allow equipment operators to work in a comfortable (ie not stressful) position. Powered changes are generally easier on the body than manual ones. Floor mats. Non-slip anti-fatigue mats reduce the risk of slips, trips and falls, as well as reduce pressure on the back and legs when standing or walking on solid floors. Depending on the environment, rugs may require chemical or temperature resistant or easily removed for cleaning.

description. Adequate lighting not only reduces eyestrain and improves accuracy, it also comfortable position. Locate a light directly over the work area allows workers to get close to the work to see it without having to stretch their heads and necks. With lights on adjustable arms, employees can locate out for the best view of the equipment and parts while avoiding glare and shadows. Fix magnifiers light is useful in certain situations. Foot pedal.

For jobs that include a foot pedal, pressure sensitive pedal can relieve stress caused by foot from pushing hard on the pedals. Powered lifts and elevators. Where jobs requiring repetitive and / or heavy lifting, powered lifts and scissor lifts can carry loads and reduce bending and lifting. Sometimes engineering controls involved minor changes to existing equipment. Change the direction the door opens or change the shelf heights can make a world of difference. Employees are experts on what will make their jobs easier and often come up with inexpensive solutions to increase productivity and reduce lost-time incident.

Have you been considering a career in the engineering industry but you would like to know more about it first? A lot of people consider this as a career, but they are not really sure where to start, so they could make wrong decisions. You may or may not be aware of this, but there is so much field to go into, so it gives you a massive choice of what type of engineering to do as a career.

What kind of Engineering should you go and will it meet your expectations?

You may have heard that engineering is a good career to go into and it can be a great pay. However, finding a good paying engineering job is like trying to find a needle in a haystack, unless you are sure what you want to do, you may be left confused by the huge number of choices.

There are so many different ways that you can go down and it is always best to know exactly what you want before. Also, you need to think carefully about whether engineering is for you or not. The best thing you can do is to decide what your interests are and then search for any engineering roles that suit best interests.

For example, if you have a passion for computers and you want to be an engineer, then computer engineering could be what you’re after. Also, you need to have a list of expectations and then see if the career you like the look of the games or not. If you’re stuck on what type of engineering to do, to try to seek advice from a career counselor or do a lot of research to help guide you.

engineering is a good way to make a living?

If you would like to be an engineer of some sort, then you should know that you have a very challenging career ahead of you. It is a very tough career and therefore the procedure of this process should know exactly what they are letting themselves.

While engineering can be very difficult, it can also be exciting and rewarding career. The best part about engineering is the amount of flexibility that career has in terms of choices there are. If you are interested in being an engineer and you have the right education needed to do the job, you could have a long and successful career, and you will never look back.

Interior design is not as common chores like fence painting and plumbing that many are able to do independently. The art of interior design requires proper knowledge and training is absolutely necessary.

Employment in the field of interior design will have years of proper training and must have always had the ambition and ideas for the interior design they had never focused on before they had actually left school and considered it as real career opportunities. But a number of issues to internal design makes it difficult option for a man looking to make a career of it. There are some fundamentals in commercial interior design, each professional must know or he should have difficulties to complete their projects. That is why it is important to determine the field of retail design you would like to get into, where commercial design is a great field numerous choices. After all, work and ideas will catch you money.

Computer Software are essential tools for interior design. The CAD, or Computer-aided-design, is a common tool that professional interior designers use to create the interior design of their art in such a form that can be easily interpreted by contractors who would work on it. The CAD program is useful in the creation of all sorts of drawings and drawings of the design, which work as the base project and without it is difficult to start the project. Therefore, it is extremely necessary to have a good knowledge of CAD to excel in the field of interior design.

Much has changed in the field of architecture and design in the last 50 years, and nowadays, the computer has become important to draw and design projects. If you learn how to work and design with CAD software properly, he should not feel hard to put his points across.

Engineering

An Engineering career parallel to the design process. It also tests engineering skills in different ways in each project. It is necessary to have enough knowledge to decide how the space on the floor office, can be utilized to create bowls and also how more space can be added in place with less space. It is an important part of the Commercial Interior Design know how to utilize and work space that may not always be equal to the existing space. Often professional is called on to make room for that test logical and engineering skills desired.

requirement of knowledge from various fields and sectors such as Japan interior room design, makes profession Commercial Interior Design all the more challenging. It promises a very rewarding and lucrative profession in the future. But one must be prepared to study hard for it.