Technical Drawing Related Career Report Industrial Engineers serve as a bridge between management and operations. They combine their solid engineering background with good business sense and management ability. They figure out the best use of facilities, equipment and people for the most cost efficient and productive way to make or process a product. Industrial Engineers concentrate on improving manufacturing productivity and reducing costs associated with inventory. They are also concerned with worker safety and work environment. In order to be any engineer, you must love math, science and solving problems.

Whether it's figuring out how to erect a structurally sound skyscraper, design a more efficient car engine. Engineers at the most basic level are problem solvers. Engineering is a career based on logical, systematic problem solving, generally in high-tech, industrial, or scientific fields. Industrial engineers determine the most effective ways for an organization to use the basic factors of production-people, machines, materials, information, and energy-to make a product or provide a service (Occupational Outlook Hand Book). Engineers apply scientific and technical knowledge to address their problems and tasks faced by businesses and governments. An Industrial engineer is made up of these characteristics interested in technical and engineering work, good oral and written communication skills, practical and creative, technical aptitude, able to work without supervision, able to accept responsibility.

Engineers have a hand in all phases of development, from idea conception, design and development, implementation and testing to customer support. Industrial engineers have many responsibilities; one is to increasing productivity through their management skill. With there skill they manage people, methods of business organization, and technology than are engineers in other specialties. They generally work more with products or processes. Another responsibility of Industrial Engineers are the understanding of ergonomics and consider how the machines and work environment affect the worker. They must attack the problem by breaking it down into small, independent parts.

They design workstations to reduce fatigue and prevent discomfort and work related injuries. They check the fit of chairs, the placement of equipment, Industrial Engineers depend upon many resources, such as computers, CAD/CAM (computer-aided design and computer-aided manufacturing) and computer simulation to figure out the best methods for production, distribution, equipment, and transportation. They may also be responsible for quality control and inventory. They consider handling and storage of incoming material, and set inventory size, as well as packaging and shipping methods. Industrial Engineers must have good people and commutation skill.

They spend much of their time asking questions. They may talk with production workers, as well as technical or administrative staff. As Industrial engineer his first step is to determine the client's or production line manager's requirements. After you determine this you must carry out an investigation and / or feasibility study with options and recommendations to determine the building and repairs required. Once the studying is done they prepare plans and drawings of machines or machine parts. Then they work out how much the work will cost.

Studies are they started; they study the energy, environmental and safety aspects of the planned work. They supervise the building and repair of machines and systems. After every thing is done you must review the results upon completion. The employment of Industrial Engineers has risen from 115, 000 jobs in 1996 to 198, 000 jobs in 2000. This rise is due to the need for Industrial Engineers in the manufacturing industries. This is all according to the Occupational Outlook Hand Book.

According to the Average Entry Level Salaries for Graduates with Engineering and Computer Degrees, Industrial Engineers can make 41, 300 as an entry- level as long as they have two years of experience or less. This makes it the sixteenth highest out of fifty-two. There are many job fields that relate to Industrial Engineer such as: . Chemical Engineer. Civil Engineer.

Industrial Designer. Industrial Engineering Technologist. Interior Designer. Management Consultant. Mechanical Engineer. Operations Researcher The reason why I have chosen Industrial Engineer is to get a better understanding of the career.

I have learned that this might be something I want to get in to later down the road. For now I'm going to keep on the road as a technology teacher. Bibliography 1 Graduating Engineer & Computer Careers web 2 Occupational Outlook Handbook, 2002-03 Edition. Occupational Outlook Handbook. web Net Temps web.