Monthly Archives: May 2015

The Best Paying Jobs for Those Majoring in Science or Engineering

Selecting a college major is an important part of defining what type of career you want after you graduate. Fields with a high demand for employees, but a lack of qualified applicants, often command higher starting salaries and significantly higher earnings once a person reaches mid-career levels. In recent years there has been a shortage of graduates pursuing careers in science and engineering. As a result, those graduating with a bachelor’s degree in a science or engineering field are being offered initial salaries starting at $50,000 per year or higher.

For students going on to obtain a master’s or doctorate in a particular specialization, not only are their starting salaries further increased, but this also affords graduates more flexibility and job opportunities. In addition, students at the master or doctorate levels are able to major and minor in a more diverse range of fields. Even though the monetary rewards and post-graduate earnings are attractive, one thing students have to seriously consider is whether a career in science or engineering is for them. The last thing you want to do is spend your college years pursuing a career field you know you are not going to enjoy.

If science or engineering sounds appealing, some of the top salary potential majors include:

– Computer Science

– Petroleum Engineering

– Mechanical Engineering

– Actuarial Mathematics

– Physics

– Nuclear Engineering

– Computer Engineering

– Chemical Engineering

– Electrical Engineering

– Aerospace Engineering

Besides these fields, there has been a recent surge in demand for pharmaceutical technicians, environmental scientists, laboratory technicians, and veterinarians.

Choosing a Career Specialization in Science or Engineering

Long before you make up your mind to specialize in one specific science or engineering career field, you have to complete a list of general education requirements and core classes. The core classes help expose you to a wide variety of topics and subjects to help you determine which specialized field you want to pursue.

Some students, at the bachelor level, decide to major in one field, and minor in another, after they have completed their core class and general education requirements. More ambitious students select two closely related, yet different fields, and work on a double major. There are benefits of having a minor or a second major. First, you gain exposure to specialization in two different career fields. Next, your employability after graduation is increased, because you have a more diverse educational background.

Regardless of whether you decide to pursue a degree in just one specific field, or more than one, is entirely up to you. However, essential items you need throughout your studies and your career are engineering and scientific notebooks. These notebooks have been designed for use in science and engineering fields. They include features for patent protection, configurations for research projects, and other laboratory or project needs to protect your ideas. You can order high-quality laboratory, science, engineering, and research notebooks from Scientific Notebook Company by phoning 800-537-3028 now.

How Schools Can Keep Students Interested in Science and Engineering

One of the biggest challenges for elementary, middle, and high school teachers is keeping students engaged in learning. This becomes even more complicated when the subjects of science and engineering are taught. According to a study completed by Kaplan Early Learning Company, about a third of all elementary students lose interest in science and engineering by the time they are in the fourth grade.

Part of the reason for the disinterest comes from students not understanding how science and engineering relate to their daily lives. As students become older, they start to consider their future career options based upon their personal interests and the subjects they prefer at school. By the time students reach high school, students start to disregard these subjects because they do not see the value of learning them, in regards to their career choices, unless they are interested in becoming a scientist or engineer.

Overcoming these learning obstacles is further complicated by school budgets, teacher-to-student classroom ratios, and other political factors. Elementary and secondary educators often complain they lack the necessary tools and resources to properly teach students about science and engineering. As a result, fewer students are selecting careers in science, mathematics, and engineering fields. This is creating a shortage for these high-value jobs, which is expected to continue to grow as the demand for engineers and scientists continues to increase well into the next decade.

Keeping students interested in science and engineering starts by making the subjects more interesting and fun. Instead of lecturing to students about a specific science or engineering topic, turn the lesson into a hands-on exercise. For instance, if an elementary class is learning about our solar system, have the students build a model using poster board, cotton balls, and other materials. If the topic is learning how plants absorb water, create a science experiment where students put white carnations into a cup of water mixed with food coloring.

At the high school level, hands-on instruction can still be used to teach students, as well as focusing the learning on subjects the students like. For instance, most teenagers like video games. Both engineering and science are used to develop modern games. Challenge the students to take their favorite video game and discuss where engineering and science would be used for the game’s development, and record their findings in student notebooks. You could also seek out a professional video game developer, and ask him or her to come in and speak to your class about how science and engineering relate to their career.

When students can see how science and engineering relate to their daily lives and the things they enjoy doing, they are going to be interested in learning more. You can supply your students with the same types of engineering notebooks and scientific notebooks scientists and engineers use, to further create interest in science and engineering. Order the notebooks you need for your students today, from Scientific Notebook Company, by calling 800-537-3028.

How to Become a Future Scientist

Becoming a scientist in your future can be a rewarding career, but there is much to do long before you find the cure to a disease, develop a new revolutionary product, or solve a problem that has been plaguing humanity for decades. Most scientists today are noticing an increase in competition from other careers, like engineering, where science tends to overlap. Allowing stress and pressure to creep in is not beneficial. Scientists who become overwhelmed from too much anxiety tend to lose interest and no longer enjoy science as much as they did in the past.

The follow tips can help prospective scientists find the right field of study and avoid finding themselves in a situation where they no longer are having fun:

1. Balance your university coursework with interesting courses. Focusing entirely on science, math, and other specialized fields of study should not be your only education. While these are essential to your future as a scientist, remember to take other courses of interest to you, such as poetry, art, photography, and history.

2. Choose a good university. Some future scientists get weighed down by looking for universities with higher publishing rates and being able to get a grant. These features can be beneficial, but, if the school does not motivate you, then you have a problem. Select a university which makes you feel motivated and energized.

3. Choose good professors and educators. Some professors treat their students like free labor and utilize the course to further their own research. A sign of a good professor and educator is one who encourages, motivates, and helps future scientists with their own personal and scientific development.

4. Broaden your learning horizons. Take advantage of exchange programs, internships, and studying abroad to further expand your knowledge. Many young scientists overlook the benefits of these learning opportunities.

5. Take time out for yourself. It is okay to take time away from your studies and have fun doing something you consider enjoyable. Attend a seminar, visit a museum, or read a science fiction/fantasy novel. Often, young scientists see a problem within other areas of interest, and realize they have the tools, techniques, and skills to solve it.

6. Develop your communication skills. One of the major hurdles for scientists is being able to communicate their ideas to others lacking a scientific background, or being comfortable while speaking in front of large groups of people. Supplement your education with communication and public speaking coursework.

7. Start building a name for yourself. Conduct your own research and start building your own findings, rather than working with an already established scientist. Even though the experience of working for a well-known scientist is beneficial to your career, it can be difficult for you to step out of their shadow or receive recognition for your contributions toward their research work.

Lastly, throughout your studies, remember to document and record notes by hand. In today’s computer-driven society, it is tempting to store notes, files, and data related to your research on a computer. However, there is always the risk your ideas will be stolen by a hacker. Protect yourself by making your own handwritten backup copies of the information in scientific notebooks. In the event of a dispute, having hand-written notes in laboratory and research notebooks can easily show that you were the first to formulate a hypothesis, solve a problem, or develop a new product.
Contact Scientific Notebook Company to order all of the scientific notebooks you need by calling us directly at 800-537-3028 now.

Consider a Career in an Engineering Field

Engineering is a specific career choice for some people who are interested in technology and science, and who want to contribute to the development, building, or design of equipment, buildings, engines, machines, computers, and other tools to make people’s lives easier. There are numerous fields within engineering to pick from when considering this for a career. Some aspects and general education are similar, but specialty fields have their own educational requirements. Some of the educational courses required for engineering careers include math, science, drafting, drawing, and computer programming.
In recent years, R&D (research and development) engineering careers are in much higher demand than in other engineering fields. The cause of this growth is largely due to the latest advances in technology and the increased rate at which new products are being developed. There are two basic types of research and development used by organizations.

The first one involves creating, developing, and designing new products and/or improving existing product lines. The second one is using applied sciences to explore possibilities, weigh theories, and hypothesize about potential future products. Engineers are often hired to for the first type of R&D, while scientists are normally hired for the second type of R&D.
Research and design can be applied to a wide range of industries and engineering fields, such as:

– Structural Engineering

– Computer Engineering

– Environmental Engineering

– Nuclear Engineering

– Industrial Engineering

– Chemical Engineering

– Aerospace Engineering

– Biomedical Engineering

– Electrical Engineering

– Civil Engineering

– Mechanical Engineering

Many engineering students receive overlapping coursework at their university because many of the specialized fields also overlap. As a result, engineers need to have a basic understanding of several different specialty areas in addition to their own specialized field. For instance, structural engineers need to have an understanding of civil engineering concepts, or biomedical engineers should understand the basics of chemical engineering.
Most universities have a set of prerequisite coursework to be completed before engineering students are able to select from a specialized field. Once students have mastered the concepts and skills in physics, engineering computer applications, and mathematics, then they are allowed to move on to coursework more closely related to their particular engineering field specialization. Engineering students do not solely rely upon technology to conduct research and development and complete coursework. Many record their notes and findings in engineering notebooks and research notebooks, because there are times when they do not have access to computers, tablets, and other such devices, or they want to map out a simulation, concept, or other idea by hand first.

Engineering careers are not limited to sitting behind a desk and using a computer all day long. Engineering has changed over the past decades, and engineers are found in a variety of work settings. Engineers work offshore on oil rigs, onsite at construction projects, in nuclear power plants, in research laboratories, in manufacturing facilities, and in space. This career field is expected to experience major growth over the next decade, depending upon the specialized field. Some fields will grow about four percent, while R&D engineering fields will grow as much as thirty percent.

Whether you need engineering notebooks for university work, patent protection, or project control, you can obtain them from Scientific Notebook Company today by calling 800-537-3028.

Engineering Notebooks