Nano Engineering Career

Nano Engineering Career

Nanoengineering encompasses the practice of the profession on a nanoscale, which stems from the nanometer unit of measure, equivalent to one billionth of a meter. Within the industry, nanoengineering is synonymous with practices of nanotechnology, whereby it focuses on the engineering component of a given technology rather than the scientific side. Nanotechnology professionals have become prized professionals in the current marketplace for their skills and training dealing with microscopic applications.

From the automobile and energy industry to healthcare and technology firms, companies around the world eagerly seek to attract and develop these professionals. Within these realms, scanning tunneling microscopy (STM) and atomic force microscopy (AFM) are the dominant techniques of the field used to solve problems and originate new technologies. Both techniques pivot on generating microscopic probes to manipulate and track the movement of atoms with the idea of capturing something significant to translate into real world applications such as revolutionary manufacturing materials or new pharmaceutical products.

To learn more about becoming a nanoengineer, contact the schools below to request more information. We recommend contacting multiple schools to compare programs.

Professionals in this field often perform a medley of duties depending on the industry they work in and/or their educational backgrounds. In biosciences, nanoengineers dedicate their time to developing new medical device products and ways to enhance existing ones. From a construction viewpoint, these experts investigate and evaluate the development of new materials to develop more sustainable and durable building products and materials. Automotive companies employ these engineers to develop more efficient processes within an engine system and materials to build and pad vehicle systems and interiors. Regardless of the field, these engineers choose to employ their skills and talents, the field requires immense patience and attention to detail. Refining the effective use of STMs and AFMs, critical to the development of new technologies and breakthroughs, often proves to be challenging for most practitioners in the field. Powerful microscopes with exceptionally fine silicon tips are employed to monitor the nano activity harnessed to develop new applications. Establishing a suitable tip, though, can sometimes take seven days alone. Nevertheless, global firms like Abbott Laboratories, Tesla, Exxon-Mobil, and Sony are a few of the global firms capitalizing on the potential of nanotechnology.

Read More: computer science vs computer programming

Acoustic Engineering Degree Requirements

Acoustic Engineering Degree Requirements

Acoustic engineers focus their efforts on the shaping and control of sound. They work to manipulate and capture the vibration of sound by harnessing the best quality for hearing. These engineers work to manage noise control in a variety of industrial, commercial and domestic settings. Acoustic engineers develop noise buffers and sound barriers to optimize hearing as well as refine technology used in recording and live performance such as microphones and amplifiers. Moreover, they often work to develop solutions for transferring sound energy into electricity. Other professionals in the field design interiors by selecting specific construction materials and aesthetic products to customize the sound experience of a given living or work environment. Private enterprises in the fields of construction, architecture, and entertainment are a few of the employers seeking the expertise of these professionals. They often strive to perfect the sound experience in concert halls and recording studios, while others may employ their skills in the healthcare industry with work on equipment like hearing aids.

If you want to work as an acoustic engineer, use our list of colleges and universities that offer programs that can help you achieve your goal.

These types of professionals may be asked to perform a variety of duties based on the industry they choose to employ their skills and knowledge. In the construction industry, engineers may execute sound and environmental evaluations on a building to ensure it meets codes and regulations. They may examine how alterations in the design of a structure may impact sound quality. In an industrial setting, these professionals utilize digital hardware and software to determine means for lessening sound disruptions in a work facility, while inquiring into how vibrations impact factory equipment or transportation structures such as a bridge or automobile. In the entertainment sphere, these professionals often work to optimize sound quality in recording studios and in live performance venues, evaluating how structures, materials and digital equipment and software enhance sound quality. Often, bioengineering firms seek these professionals to address how ultrasound and other forms of technology provide the best treatment options for patients under a medical professional’s care. Firms across the world like Sony, LA Live, the NFL, Bose, and Honda are a few of the huge companies seeking the services of these acoustic experts.

Read More: software engineers vs depelopers

Types Biomedical Engineering Degree

Types Biomedical Engineering Degree

Biomedical engineers design prosthetic limbs, artificial organs, and regenerate tissue. They create drugs and pharmaceuticals, collect and analyze biological data, and design life-saving equipment. They work with universities, hospitals, labs, government, industry, and regulatory agencies.

They work with doctors and patients seeking solutions to physical as well as physiological problems. It is important to incorporate into their own specialties any changes in related fields, so engineers scramble to stay abreast as technology rapidly evolves.

Universities teaching advanced levels of biomedical engineering commonly offer post-doctorate and research career opportunities. For example here is a list of research opportunities available through Florida A&M University:

• Tissue Engineering for Bone and Cartilage Replacement
• Advanced Polymeric Materials Characterization and Rheology
• Magnetic Resonance Imaging of Cells, Tissues, and Organisms
• Plasma Reaction Engineering for Pollution Control and Disinfection
• Biomass Conversion to Energy by Enzymatic/Catalytic/Thermal/Plasma Methods
• Advanced Computational Methods in Materials, Catalysis, and Transport
• Solid State Materials Synthesis and Characterization

Read More : global employment solutions jobs

Electrical Engineer Careers and Nature of Work

Electrical engineers specialize in power supply and generation. They design, develop, test and supervise electrical equipment manufacturing. They have also been trained to handle responsibilities like wiring and lighting installations in buildings, automobiles and aircraft.

What is great about being an electrical engineer is that the training is so extensive that graduates may land a job in many different industries such as construction, manufacturing and design.

Moreover, electrical engineers may take part in development and research as assistants to scientists and other engineers. Many kinds of electronic equipment from portable music players to GPS devices pass through an electronic engineer’s hands.

They come up with means to use electrical power to operate a certain product or improve its functions. Among the most challenging and in-demand tasks for electronic engineers today include developing construction plans for electrical lighting systems for skyscrapers, designing remote-controlled race cars and building technology for factories like robots that can perform welding.

Electronic engineers perform their duties in offices and laboratories but may also be sent to work sites for supervising and troubleshooting. This is especially true for those who work in companies that manufacture complex equipment. They spend about 40 hours per week at work, but they may work longer than this.

A typical day for an electrical engineer varies depending on their employer. Those who work for the federal government may handle responsibilities in areas of research, development and electronic device evaluation that may cover systems for manufacturing, transportation, aviation and communication. Electrical engineers use design software and equipment in their projects.

Read More:  information technology engineering 

Civil Engineer Jobs and Career Outlook

Civil Engineer Jobs and Career Outlook

Civil Engineers focus on six basic infrastructure systems. The structural engineer focuses on design and analysis of buildings and bridges. The geotechnical engineer designs and builds tunnels, pipelines, embankments, and foundations. The environmental engineer analyzes and solves problems involving air and water quality and management of waste and hazardous materials.

Water resources engineers seek ways to improve water sources through hydrology, meteorology, and fluid dynamics. Construction engineers manage projects for erecting buildings, digging tunnels, and laying roads. Transportation engineers design, construct and maintain highways, railways, airfields and ports.

Graduates work for nongovernmental organizations, private companies, government agencies, public or private institutions, national research laboratories, or educational institutions. As for research, while masters-degree graduates can be involved through projects or assignments, it is primarily only those at the Ph.D. level who perform research in this field.

Bureau of Labor Statistics for Occupational Employment and Wages (BLS) show civil engineers as those who perform planning, designing of building structures and facilities, and overseeing their construction and maintenance. These structures include water and sewage systems, roads and railroads, airports and harbors, bridges and tunnels, channels and dams, irrigation projects and pipelines, and power plants. The Bureau's data include engineers for geo-technical, architectural, structural, traffic and ocean expertise. Hydrologists are not included.

The mean annual wage for civil engineers in 2011 was $82,710 according to the BLS.

There are countless associations for those who have attained their degrees. Professional organizations offer career resources, resources for employers, research opportunities, databases, libraries, web resources, professional networking, and many other opportunities for those with a degree in civil engineering.

Read More:  information technology engineering corporation