Guide to Majors
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Guide to College Majors in Chemical Engineering
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What Is Chemical Engineering?
Chemical engineering majors learn to change raw materials into economically viable products. By solving technological problems, chemical engineers create innovations that impact our lives in surprising ways.
A college degree in chemical engineering can cut across a variety of academic paths, combining:
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Guide to College Majors in Chemical Engineering
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What Is Chemical Engineering?
Chemical engineering majors learn to change raw materials into economically viable products. By solving technological problems, chemical engineers create innovations that impact our lives in surprising ways.
A college degree in chemical engineering can cut across a variety of academic paths, combining: |
- Chemistry
- Mathematics
- Physics
- Engineering
- Biology
Students can tailor their chemical engineering majors to careers in environmental protection, pharmaceutical development, health care, food processing, and many other areas. Nearly 45% of chemical engineering graduates go on to work for large firms in industries such as:
- Paper and pulp
- Chemical
- Petrochemical
- Semiconductors
- Pharmaceutical
- Textile manufacturers
Other chemical engineering majors choose careers with government agencies or consulting firms that specialize in environmental regulations, pollution controls, microelectronics, and biotechnology. About one in five chemical engineers attends graduate school to earn a master's degree or doctorate in his/her specialty, or to pursue other career options such as medical school, law, or industrial management. Online degrees in chemical engineering are available at the master's level, designed for the working adult who already understands the basics of chemistry.
What Do Chemical Engineers Do?
In a world that tries to feed more people using less farmland, where citizens are concerned about environmentally safe production and where manufacturers demand more efficiency in order to remain competitive, it might be easier to ask, "What doesn't a chemical engineer do?"
Consider how the work of a chemical engineer affects your life from the moment you wake up in the morning. Your toothpaste, your makeup, the soles of your shoes, the breakfast cereal you eat, the fuel used to drive to work or school--each of these involves the work of a chemical engineer. Chemical engineers develop everything from fibers used for clothing and rope to artificial organs for human transplant. Chemical engineers act as the bridge between the lab and the consumer, between science and manufacturing. The field's broad application to so many industries provides a graduate with opportunities to pursue work in almost any field of interest.
Chemical engineers often find practical applications for discoveries they make in the lab. This requires understanding the principles of chemistry and biosciences-as well as management and economics--to create a solution.
The work of a chemical engineer is not the same as the work of a chemist. A chemist is responsible for creating the chemical reactions needed for a product. Chemical engineers are then responsible for making the process happen in a way that is cost effective, safe, and environmentally sound. In a world that tries to feed more people using less farmland, where citizens are concerned about environmentally safe production and where manufacturers demand more efficiency in order to remain competitive, it might be easier to ask, "What doesn't a chemical engineer do?"
Consider how the work of a chemical engineer affects your life from the moment you wake up in the morning. Your toothpaste, your makeup, the soles of your shoes, the breakfast cereal you eat, the fuel used to drive to work or school--each of these involves the work of a chemical engineer. Chemical engineers develop everything from fibers used for clothing and rope to artificial organs for human transplant. Chemical engineers act as the bridge between the lab and the consumer, between science and manufacturing. The field's broad application to so many industries provides a graduate with opportunities to pursue work in almost any field of interest.
Chemical engineers often find practical applications for discoveries they make in the lab. This requires understanding the principles of chemistry and biosciences-as well as management and economics--to create a solution.
The work of a chemical engineer is not the same as the work of a chemist. A chemist is responsible for creating the chemical reactions needed for a product. Chemical engineers are then responsible for making the process happen in a way that is cost effective, safe, and environmentally sound.
Chemical engineering is a lifelong learning experience because the field is constantly evolving. Later in their careers, chemical engineers might find themselves working in an industry that did not exist when they graduated.
Chemical engineering is a lifelong learning experience because the field is constantly evolving. Later in their careers, chemical engineers might find themselves working in an industry that did not exist when they graduated.
A History of Chemical Engineering Education
As the Industrial Revolution built momentum in the 1880s, many emerging technology companies asked their staff chemists to optimize production in factories and, later, on assembly lines. In 1888, not long after pioneering chemical engineer George Davis condensed his knowledge into a groundbreaking series of twelve lectures, the Massachusetts Institute of Technology launched the first ever bachelor's degree program in chemical engineering.
The University of Pennsylvania and Tulane University soon followed suit, capitalizing on industrial hunger for trained, competent engineers. By exposing students who had started as traditional chemistry majors to the cutting-edge engineering and manufacturing theories of the day, all three institutions established high benchmarks for this new profession.
Chemical Engineering Career Outlook
Chemical engineering can be financially rewarding. A National Association of Colleges and Employers survey showed that graduates with bachelor's degrees average more than $52,000 per year. Master's degree and PhD holders do even better. The average industry salary of $75,000 ranked first in a 2004 study among career choices.
Chemical engineering is a competitive but steady industry. Analysts predict stable job growth in the next decade, fueled by the need to replenish the work force and the relatively low competition for available jobs. A good chemical engineer is not likely to lack quality job opportunities.
The petroleum and chemical industries are traditional spots for chemical engineers. Other areas of recent growth include:
- Electronics
- Food
- Paper
- Pharmaceuticals
As environmental concerns such as waste reduction and biohazard cleanup increase in importance, many new chemical engineers will enjoy high demand in those areas. In recent years, more graduates have found jobs with small- or medium-sized companies. Opportunities have also expanded for consulting work with banks and investment firms.
"I wouldn't do anything else."
Prospective chemical engineers can look forward to exciting careers that can even lead to the boardrooms of Fortune 500 companies. Dave O'Reilly spent his entire career working for the companies that would ultimately merge to form the ChevronTexaco Corporation. In addition to managing thousands of employees, O'Reilly intimately understands the nature of the products his company manufactures.
He spends his time searching for ways to make oil and fuel products cleaner, cheaper, and more efficient. And, like many chemical engineers, he's been fascinated by his industry since college: "I became a chemical engineer specifically because I wanted to get into this business. And I was very fortunate to be hired by Standard of California (a precursor of ChevronTexaco) as a research engineer. My first job was in Richmond at the research labs."
"I just love it. I've been in this business ever since, and I wouldn't do anything else."
- Dave O'Reilly, interviewed in the San Francisco Chronicle (excerpted by ChevronTexaco's Media Relations Unit)
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Do You Need an Advanced Degree to be a Chemical Engineer?
The majority of students earning bachelor degrees in chemical engineering can plan on starting profitable careers that tend to begin with production and process engineering tasks at a plant site. Entry-level work might also include technical service, which involves providing engineering analysis and advice to non-engineers, and helping with market development.
For someone more interested in the product and plant design aspects of chemical engineering, an M.S. would provide an advantage. A PhD is most helpful to those who want to perform university research or to teach. Of course, significant professional experience and accomplishments can also lead to teaching and research positions.
Advanced degrees can often be obtained with little financial sacrifice. On-campus graduate students usually can obtain assistantships that pay tuition, plus a stipend. Many employers will pick up the tab for an employee who pursues an advanced degree while remaining on the job. Online master's degrees in chemical engineering have become a popular choice for this category of student.
Preparing for a Degree in Chemical Engineering
Many experienced chemical engineers admit that their degree was not actually their first choice. Often, chemical engineering majors transfer into their specialties after developing a fascination with chemical processes while pursuing more traditional math or science studies. Consider some of these typical work requirements for chemical engineers to determine if it is the right career choice for you.
- Did math and science classes interest you in high school? If not, you can always take additional classes in college, but many high school courses will help prepare you for college. Preparatory classes in chemistry, general engineering, calculus, biology, and physics will accelerate your career.
- Do you enjoy a variety of disciplines? The profession combines skills in chemistry, mathematics, physics, biology, and engineering.
- How are your communication skills? Chemical engineers often create technical reports and make oral presentations.
- Do you have people skills? Although many jobs are primarily research-oriented, many more positions require working in teams, taking directions, and giving directions to others.
Can you speak a foreign language? More and more companies that employ chemical engineers compete globally. Knowing a second language will come in handy.
Preparing for a Degree in Chemical Engineering
Bachelor's Degrees in Chemical Engineering
Bachelor's degrees in chemical engineering allow students to learn valuable skills in order to launch a new career or make an important shift in career focus. Online chemical engineering programs are especially appealing to busy professionals who want to add valuable career skills without sacrificing the salary or benefits of their existing jobs.
In fact, many companies that employ chemical engineers offer workers in other departments the opportunity to take advantage of tuition reimbursement programs. The chemical engineering majors enjoy the chance to expand their skills, while the employers benefit from growing those skills internally, instead of looking outside their organizations for talented professionals.
During their classes, bachelor's degree candidates gain exposure to key principles of engineering, including courses that touch on allied fields. Distance learning participants and online degree candidates can fulfill lab requirements by participating in condensed residency periods at a central campus location. Increasingly, reciprocal credit exchange agreements between universities allow more and more students to complete lab assignments in nearby facilities, even though their professors may be lecturing from across the country.
Chemical engineering majors typically complete their degree within four years, at which time they often field numerous job offers from eager companies in a variety of fields. Quality bachelor's degree programs offer students career counseling and job placement assistance, usually working closely with school alumni who have already launched successful careers in prominent corporations.
Master's Degrees in Chemical Engineering
After a few years in the field, working professionals can return to the classroom to earn their master's degree in chemical engineering. In today's busy business environment, many professionals enjoy attending online master's courses that fit more conveniently into their schedules. Many master's degree candidates can usually complete their requirements over the course of three to five years, depending on their course load.
During this stage of a chemical engineer's education, students often narrow their focus to one or two key specialties. Whereas many bachelor's degree programs funnel students through a large set of core courses, a master's curriculum can offer chemical engineering majors the opportunity to select the exact classes that meet their professional needs.
Doctorate Degrees in Chemical Engineering
Experienced chemical engineers who wish to contribute to their industry at the highest levels can choose to pursue a doctorate level degree. Once again, working professionals in this field benefit from the expansion of online PhD programs in chemical engineering. Although these degree candidates may complete much of their coursework remotely, they must still perform some hands-on research in teams as part of an on-campus residency at some point during the degree program.
What Can You Do with a College Major in Chemical Engineering?
Career options for aspiring chemical engineers
A chemical engineering degree can provide a wealth of career choices. Employers of all kinds seek the analytical and problem-solving skills developed by chemical engineers. Few career choices offer the rewards and challenges that make chemical engineers some of the highest-paid professionals in the country.
One major role for chemical engineers is the development and operation of chemical processing plants, as well as the equipment in those plants. Engineers might use software to plan the design of a plant, or they might develop the software that is used to plan the design. They may also be involved in obtaining the equipment, coordinating the construction, and supervising the plant operations. Other chemical engineers might be more involved in research and development, where they work with chemists or perform some of the research themselves.
Chemical engineers who are knowledgeable about a company or a specific product can act as troubleshooters by finding ways to improve plant operations. Being a successful troubleshooter requires a thorough understanding of the process and equipment, the ability to apply chemical engineering principles to problem solving, and a set of advanced data interpretation skills.
The same skills that allow chemical engineers to work effectively on a plant floor can help them transition to a career in the boardroom. Many chemical engineers use their creative troubleshooting abilities and their advanced interpersonal skills to advance into management positions.
Sometimes a chemical engineer's special knowledge of a product or a process leads to a career as a consultant, where he or she can work with several firms in an industry. At other times, a chemical engineer will take the knowledge learned over a career back into the classroom and pass it along to the next generation of chemical engineers. Chemical engineers who develop their communication skills can also enjoy a separate or supplemental occupation as a technical writer or author.
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Chemical Engineering Specialties
Not every chemical engineer is a generalist. Many choose a specific career path, develop an area of expertise, or serve a single purpose on a team. Some areas of specialty include:
* Biochemical engineering. This field focuses on the chemical processes occurring naturally in plants and animals. Food companies hire chemical engineers to improve crop yields by developing safer pest control products for farmers and distributors. Utility companies employ chemical engineers who examine ways to dispose of waste more efficiently while delivering supplies of clean drinking water to challenging locations.
* Food engineering. As the world's population increases, researchers are looking for new and better ways to improve the quality and extend the life of food products. Food chemical engineers also try to make crops more disease-resistant and safer to eat.
* Petroleum and petrochemical engineering. Petroleum is a finite resource, so chemical engineers constantly seek better ways to find and extract oil and natural gas. Oil companies deploy teams of chemical engineers to existing plants and refineries to improve production yields from dwindling fossil fuel deposits. Chemical engineers also travel to new drilling locations to help teams of scientists develop better ways to tap previously overlooked sources of oil and gas. At the same time, chemical engineers also search for safer and more efficient methods of developing oil-based products. By integrating smart production methods at the site of the drilling or during the refining process, chemical engineers have discovered ways to create useful products by recycling waste elements.
* Process control. Computers have become more important to just about every profession. Chemical engineering is no exception. Engineers oversee the quality-control portions of product development, such as temperature and liquid levels in processing tanks. Process control specialists improve production to a diverse array of industries, ranging from ice cream production to plastics manufacturing.
* Pharmaceuticals. In conjunction with medical researchers, chemical engineers help design and operate the equipment that produces life-enhancing drugs. Chemical engineers specialize in taking the concepts of new drugs from the lab to the factory floor by discovering ways to scale these new inventions. Over time, their efforts produce medicine that costs less for consumers and can be made more efficiently in facilities around the world.
* Production. Chemical and manufacturing plants require professionals to oversee their equipment and processes. Some employers use chemical engineers to maintain production levels or to advise in the purchase and layout of the equipment.
Did You Know?
Although many chemical engineers have won Nobel prizes for their work in the profession, a few chemical engineer majors have gone on to fame in other areas. Rocky IV actor Dolph Lundgren, It's A Wonderful Life director Frank Capra, and Major League Baseball pitcher Kevin Brown all earned degrees in chemical engineering.
Explore Related Career Pathways
Career Planning for Chemical Engineers"
Certification and Licensure
Depending on their exact job duties, chemical engineers may sometimes be required by states to obtain a Professional Engineer License. Students can learn about the requirements for their specific career area during the course of their degree program.
Chemical engineers who do require licenses in their home states must first complete a predetermined amount of work experience before taking their state examination. In many cases, chemical engineers can apply for pre-licensure certification status. Once they have filed paperwork with the state, they can begin work in a number of apprentice positions that prepare them for full licensure.
Regardless of a state's requirements for licensure, most chemical engineers seek official certification from the American Institute of Chemical Engineers. This trade organization and certifying body, based in Philadelphia with 12 branches nationwide, has set the standard for professional chemical engineers for nearly 80 years.
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Pursue your Chemical Engineering major today.
Grand Canyon University
Grand Canyon University is offering Bachelor and Master degrees through our College of Education, Ken Blanchard College of Business, College of Nursing, and College of Liberal Arts.
Learn more about programs at Grand Canyon University
This program is designed for educators who wish to learn
to use technology to improve the success of their students. The
format and courses of the regionally accredited program are
tailored to meet the needs of the adult learner and to maximize
strengths that the student already possesses. Courses are taught
by experts in their respective fields who share knowledge and
experience in areas of curriculum and instruction, educational
applications of technology, interactive design for the classroom
and distance learning. Opportunities are provided to apply
concepts, theories, and research throughout the program.
Assignments within each course guides students through
observational and practice based experiences. Students must have
access to a K-12 classroom to complete the practicum and program
assignments. Graduates of this program are prepared to become
informed educators who meet the technological needs of schools and
student populations. Educator must hold a current Teaching
Certificate or have K-12 experience.
The Master of Education (M.Ed.) in Curriculum and Instruction: Reading with an Emphasis in Elementary Education (Not Eligible for Institutional Recommendation) program is designed for educators who wish to apply theory and educational best practices to the delivery of curriculum, instruction, and assessment in order to improve the reading abilities of their students. The format and courses of this regionally accredited program are tailored to meet the needs of the adult learner and to maximize strengths that students already possess. Courses are taught by experts in their respective fields who share knowledge and experience in areas of curriculum and instruction, cognition, emergent literature, linguistics, phonics, and developmental and corrective reading processes. Opportunities are provided to apply concepts, theories, and research throughout the program. Assignments within each course guide students through observational and practice-based experiences. Students must have access to a K-8 classroom to complete the practicum course and program assignments. Graduates of this program are prepared to become informed educators who meet the reading needs of schools and student populations. Educators must hold a current teaching certificate or have K-8 teaching experience.
The Master of Education (M.Ed.) in Curriculum and Instruction: Reading with an Emphasis in Secondary Education (Not Eligible for Institutional Recommendation) program is designed for educators who wish to apply theory and educational best practices to the delivery of curriculum, instructions, and assessment in order to improve the reading abilities of their students. The format and courses of this regionally accredited program are tailored to meet the needs of the adult learner and to maximize strengths that the student already possesses. Courses are taught by experts in their respective fields who share knowledge and experience in areas of curriculum and instruction, cognition, emergent literature, linguistics, phonics, and developmental and corrective reading processes. Opportunities are provided to apply concepts, theories, and research throughout the program. Assignments within each course guide students through observational and practice-based experiences. Students must have access to a 7-12 classroom to complete the practicum course and program assignments. Graduates of this program are prepared to become informed educators who meet the reading needs of schools and student populations. The educator must hold a current teaching certificate or have 7-12th grade teaching experience.
Grand Canyon University is accredited by The Higher Learning Commission of the North Central Association. This is a regional accrediting body as mentioned above. (30 N. LaSalle St. Suite 2400, Chicago, IL 60602-2504 tel. 800-621-7440; http://www.ncahigherlearningcommission.org/.)
Grand Canyon University, through its Ken Blanchard College of Business, is nationally accredited by the Association of Collegiate Business Schools and Programs to offer the following business degrees:
- The Bachelor of Science (BS) with majors in Accounting, Business Administration, and Marketing
- The Master of Business Administration (MBA).
Grand Canyon University is the only university in Arizona to hold this accreditation. (7007 College Boulevard, Suite 420, Overland Park, KS 66211, (913) 339-9336)
The Commission on Collegiate Nursing Education, One Dupont Circle NW, Suite 530, Washington DC 20036, (202) 887-6791 and the Arizona State Board of Nursing accredit the Bachelor of Science in Nursing degree program.
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Northcentral University - Online
At Northcentral University, we teach individuals, not just classes. Our unique, proven online educational experience is designed to help you achieve your goals using your own style of learning.
Learn more about programs at Northcentral University - Online
This CAGS provides Learners with the skill sets, knowledge and competencies to become a leader in the area of curriculum design and teaching. The specialization will provide an in-depth review of current practices, research, contemporary teaching issues and practices.
The online Ed.D. attracts learners who have leadership responsibility for providing learning/training to others, whether they be in colleges, PK-12 schools, proprietary organizations, private and public businesses, or the military. The Ed.D. experience at NCU culminates in the work setting applied dissertation project. The nature and purpose of the Curriculum and Teaching specialization is to provide Teacher Learners the knowledge, skill sets, and professional competencies that will enhance their instructional practice and expand their professional awareness. Learners have the opportunity to explore, examine, and evaluate contemporary teaching and instructional practices. Effective teaching methods are aligned to effective curricula design and development. Effective learning outcomes and student achievement are aligned to effective curricula implementation and assessment. This specialization offers Learners a comprehensive program of study aimed to improve their classroom performance and practice..
Northcentral University's Master of Education (M.Ed) program is suited to learners who want to combine a strong understanding of current theory and practice in education and/or organizational leadership with their personal needs and career focus. The Master of Education also provides learners with the foundational knowledge and skills necessary for doctoral level study. The nature and purpose of the Curriculum and Teaching specialization is to provide Teacher Learners the knowledge, skill sets, and professional competencies that will enhance their instructional practice and expand their professional awareness. Learners have the opportunity to explore, examine, and evaluate contemporary teaching and instructional practices. Effective teaching methods are aligned to effective curricula design and development. Effective learning outcomes and student achievement are aligned to effective curricula implementation and assessment. This specialization offers Learners a comprehensive program of study aimed to improve their classroom performance and practice.
Northcentral University's online Ph.D. in Education program is suitable for learners who want to combine a strong base of theoretical knowledge with an individualized focus to conduct research in and about PK-12, postsecondary and adult learning environments. The nature and purpose of the Curriculum and Teaching specialization is to provide Teacher Learners the knowledge, skill sets, and professional competencies that will enhance their instructional practice and expand their professional awareness. Learners have the opportunity to explore, examine, and evaluate contemporary teaching and instructional practices. Effective teaching methods are aligned to effective curricula design and development. Effective learning outcomes and student achievement are aligned to effective curricula implementation and assessment. This specialization offers Learners a comprehensive program of study aimed to improve their classroom performance and practice.
member of the North Central Association of Colleges and Schools ( www.ncahlc.org), located at 30 N. LaSalle Street, Suite 2400, Chicago, IL 60602-2504, (312) 263-0456.
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