Behind every website, application and piece of software is a computer programmer. All programs need operating instructions, and computer programmers write code that instructs them on what to do. When they aren’t writing code, computer programmers are typically busy maintaining existing programs, or diagnosing and fixing malfunctioning ones.
Computer network support specialists are tech gurus—understanding all the ins and outs of computer systems of all sizes; they focus on their connectivity and security to proactively prevent and fix issues with speed. These specialists are problem solvers—using analytical thinking and customer service skills to overcome any type of technical issue. Do you have a knack for computers and enjoy solving problems for others? A computer network support specialist just may be a great fit.
If computers and devices couldn’t share information—there would be no scrolling social media, buying last minute gifts on Amazon or collaborating remotely on a group project. Computers and devices use network systems to communicate and share information—much like how we do via social media platforms. Computer network architects are critical thinkers who understand business needs then plan and design computer systems to best meet these requirements. Their work enables us to use technology to the fullest potential every day.
It is challenging to imagine our modern world without the world wide web, even though its launch was just 30 short years ago. Since then—we have seen rapid innovation, advancement and global unification unlike any other time in history. This underlying commitment to advancement and pushing past boundaries continues to drive the field of web programming and design today. This constantly evolving industry requires creative thinkers and leaders. Individuals who pursue this degree path will learn to plan, develop, evaluate, implement and maintain functional, secure and user-friendly websites.
Students interested in innovation and staying on the forefront of emerging advancements may choose to pursue a degree in general technology. Based upon career goals, students may choose to concentrate their studies in transportation, manufacturing, electronics or land resources. Through coursework and hands-on application, students can expect to learn all aspects of their chosen specialization, developing a strong foundation from which leadership and management roles can be pursued. Potential careers may include diesel technology, computer integrated manufacturing, computer networking, construction technology and much more.
The field of biotechnology focuses on the intersection of biology and technology–leading to new products that are designed to enrich lives, ease day-to-day life and support healthier living. Early biotechnological advances included selective breeding and hybridization to create the fruits and vegetables we’re familiar with today. Currently, students pursuing biotechnology degrees will learn to explore and manipulate living organisms for the purpose of invention and/or improving products. From vaccine production to genetic modification and tissue culture, biotechnology is everywhere.
Mechanical engineers are curious problem solvers who research, design, develop and test mechanical devices, with the goal of increased productivity and improved performance. Students interested in pursuing mechanical engineering degrees will examine the general laws of physics, mathematics as science as foundations to understand and apply to mechanical systems. Coursework will likely include motion, heat transfer, thermodynamics, thermo-fluid systems and solid mechanics. Graduates are able to pursue careers in a wide range of industries, including biotechnology, robotics, energy, aerospace, automotive and much more.
From our clothing, to our next meal and the car in the garage–manufacturing enables the production of the goods and products of which we depend. Optimizing manufacturing processes to meet consumer demand and reach ultimate business goals is the focus of industrial and manufacturing engineering programs. Students will study and research process improvement theories and techniques, while learning to address issues related to cost minimization, product quality and production timelines. Additional areas of study may include occupational safety, employee management, sourcing and data analysis.
Artificial intelligence is a field of rapid growth, and intelligent systems engineering programs provide abundant opportunities to shape and impact this emerging technology. Students will learn to collect, interpret and apply data that informs artificial intelligence systems and can expect to gain hands-on experience developing and creating intelligent systems. Areas of concentration may include bioengineering, computer engineering, robotics, cyber systems and nanotechnology.
Information systems and infrastructure provide the technological foundation for our world to continue advancing. The information systems degree path prepares students to serve organizations of all sizes in their pursuit of growth and advancement through expertise in computer systems. Students pursuing this field of study will acquire knowledge and skills related to computer programming, communications, databases, business administration and network design and management.
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