Tag Archives: Scientific Notebook

A Teacher’s Guide to Mentoring Students in STEM

Today’s school curricula tend to fall short in the subjects science, technology, engineering, and math (STEM). Many public schools have shifted their focus to helping students do well on various standardized tests and now spend a good portion of the school year reviewing materials covered on these tests. As a result, numerous nonprofit and charity organizations have developed programs over the years to help connect students with STEM mentors.

Scientific Notebook
STEM mentors play a vital role in helping children, teens, and young adults further develop their interests in related STEM career fields. A STEM mentor does not have to be a teacher by professional, and many mentors come from various STEM career fields. The goal of a STEM mentor is much more than just talking about STEM-related topics of interest between the mentor and mentee.

What makes a great mentor is being able to listen to the student. In some cases, the student may only require a “sounding board” and someone to talk to about different ideas and thoughts they have while working through a problem on their own. Other times, they just want someone they can talk to without discussing any STEM topics whatsoever. STEM mentors need to recognize these differences and be able to provide the support the student requires.

Another aspect to becoming an outstanding mentor is helping to inspire students in various ways. For instance, you could challenge them to explore various topics on their own and find something within those topics that truly excites and motivates them. On the other hand, you could provide them an overview of a recent advancement in a STEM field and ask them their input on how they think this new development will benefit people.

Furthermore, a STEM mentor needs to be able to notice the differences between admiration and true interest. Some students will look for adults they admire, who are basically their “heroes” in one of the STEM fields. This adoration can sometimes create challenges for the mentors because they need to help the student learn the difference between what topics are of interest to the student, not just the STEM field of expertise their mentor excels in.

Mentoring Students in STEM

In addition to these traits, a mentor must be able to come up with creative ways to provide students with hands-on experiences to truly help expand the student’s ideas and thought processes about STEM-related fields. Mentors should also try to arrange the opportunities for students to meet professionals working in STEM career fields so they can see first-hand exactly what is like to work in that area of STEM.

As students become older, the nature of the relationship between mentor and mentee needs to evolve and expand. Mentoring high school and college students becomes more about building stronger relationships and helping guide the students to careers they will enjoy doing.

If becoming a STEM mentor sounds enticing, we encourage you to seek out various programs in your area. For all of your research and scientific lab notebook needs, remember to order them from SNCO by calling 800.537.3028 today. We are world’s leading manufacturer of scientific notebooks!

Tips for Writing and Submitting Papers to Be Published in Scientific Journals

One of the biggest rewards for scientific researchers is to have their work published in a scientific journal. It allows them to share their success on a project, plus it helps gain exposure for their work. Before you sit down and start hammering out a piece of content you would like to have published, you will want to review these tips and suggestions.

Writing and Submitting Tips

Writing Tips

Writing the piece of content is one of the most important aspects to having it accepted for publication. You do not want to rush through the processes; otherwise, the piece will probably be rejected. The best place to start is to consider the target audience and adjust your writing to fit with their knowledge and educational levels. For instance, if you want to write a piece for teenagers and have it published in a scientific journal that is appropriate for their age group, you need to make sure the content can be easily understood and avoid using jargon that they might not be aware of or know.

Once you have identified your target audience, your next steps should include:

•  Find the Right Journal
• Review the Journal’s Author Guidelines and Scope
• Draft an Outline
• Review, Edit, and Modify the Outline
• Compose the Content
• Verify the Title Reflects the Theme
• Confirm the Abstract Captures the Main Points of the Paper
• Have Your Peers Read the Paper and Provide Feedback
• Revise the Paper as Needed
• Have the Contend Edited/Reviewed by a Professional


During the early stages, while you are creating the outline and preparing to write the paper, it is beneficial to review your research notebook and other reference notebooks where you documented your research to ensure you remain on topic.

Review your Research Notebook

When you are ready to submit your paper to the journal, you will want to make sure to include a cover letter. Cover letters provide the opportunity to impress the editors or chief editors of various journal publications. Consider it like having a face-to-face meeting to explain and persuade the editor to publish your paper. Cover letters should include several key components, not just a copied title and abstract from the paper.

• An Outline of the Main Theme
• Persuasive Arguments for the Importance of the Paper
• Justification of the Relevance for the Target Audience
• Acknowledgment of Colleagues and Peers that Already Reviewed the Paper and Their Feedback
Keep in mind, a cover letter should be concise and direct. It is easy to try to fit too much into the cover letter so that it ends up being several pages long. Rather, a good rule of thumb is to limit the cover letter to about half a page, but no more than a single page. Last, remember to thank the editor for his or her time and consideration.
In the event your paper is rejected, review the feedback provided and make revisions to the content before resubmitting it. For all of your lab, research, and scientific notebook needs, please feel free to contact SNCO today at 800.537.3028.

The Importance of a Good Laboratory Notebook

Think a good, old-fashioned scientific notebook is a relic of the past now that we live in the age of smartphones and tablets? Think again. Unlike electronic devices, notebooks can be taken anywhere and used at any time, under just about any conditions, and can be used to perform many essential functions in a laboratory environment. Read on to find out what.

Laboratory notebook uses

It Helps You Keep Track of Your Work

The first and most obvious benefit of a well-maintained laboratory notebook is that it provides you with a record of the progress of your experiments, and future ideas that are easy to access at just about any time. When you take the time to carefully record all the steps you’ve taken and the results you’ve discovered at the end of each of those steps, it’s easy to pick up where you’ve left off after some time away or to double check your work before moving on to an important step that might be difficult to turn back from.

It Lets You Record Your Ideas

Just as important as keeping track of the work you’ve already done is keeping a record of the tasks you have yet to do, and writing down ideas for what you might do in the future. The laboratory life is a hectic one, and keeping track of all the ideas you have by using just your head is only good for forgetting the things you want to do when it comes time to remember them. With a well-kept laboratory notebook at hand, you can keep a detailed list of future plans and ideas worth exploring that will always be there whenever you need it.

It Lets You Keep Track of Your Lab Partners

Complicated experiments often involve multiple people working in tandem, which means that there may be significant portions of an experiment that you have no direct responsibility for. While that can make things easier, it can also add additional stress – a team is only as good as its weakest member, after all. In order to avoid mistakes and to make double-checking each other’s work as easy as possible, use your laboratory notebook to keep a record of your teammate’s work, which you can all review and provide feedback on.

Laboratory notebook

It Helps You Stay Organized

How far in advance do you have your laboratory tasks planned out? The more detailed and far-reaching your already laid-out plans, the less time you have to spend, down the road, figuring out where to go next. Where better to keep your future schedule than in the trusty laboratory notebook you always keep by your side?

It May Help You Make Money (Really!)

There may come a time when your laboratory work leads to a discovery that you and your lab partners want to patent. In order to make it through the patent process, you’ll need to show a record of your work and your process, and the schedule on which you performed your experiments. This is especially relevant if someone else tries to patent the same discovery – proving that you were the first one to make a discovery (and that it truly is original) is one of the most important parts of the patent process.

For the best scientific notebooks available, contact Scientific Notebook Company today at 800-537-3028.

The Late Trailblazer of Science: Trudy Dickinson

Despite the fact that she lived in a male-dominated world, Trudy Dickinson managed to successfully integrate herself in both the worlds of business and science. Dickinson, alongside Jean Thomas, founded Pentex Incorporated, a manufacturing company that was heavily invested in the production of blood proteins. Her company was single-handedly responsible for filling laboratory notebooks with development and research into blood proteins and their application within the healthcare industry.

Originally founded in 1953, Pentex remained an active player in the industry until 1998, when it was purchased by Serological Proteins, Inc. Despite the fact that Dickinson was successful for nearly 40 years, she was an incredibly humble, science-focused woman. Sadly, this remarkable woman passed away in late October 2016, at the age of 93.

Trailblazer of Science

Trudy Dickinson’s Life

Dickinson led an incredible life, and not just within the scope of her business. A true lover of innovation, she often pushed for her employees to think outside the box. Although she was a formidable businesswoman, she was a scientist first and foremost, and she never overlooked that fact. Born in June 1923 in Texas, she graduated from high school after spending most of her teenage years picking cotton. Not satisfied with the job, she chose to attend North Texas State University. Dickinson went on to earn a Bachelor of Science and a Master of Science, majoring in chemistry, biology, and physics, all at the same time, with little more than a trusty lab notebook at her side.

This is an incredible course load for most people, even in today’s world, but, for Dickinson, it is a special accomplishment simply because of the time period in which she graduated. In 1944’s rough political climate, most women were focusing on administrative work, writing, and other female-dominated tasks, rather than seeking out multiple degrees. She also completed a degree in the midst of WWII—a time when most people were focused on the devastation of war.

After serving in a variety of positions within both the healthcare industry and educational industry, including one where she was responsible for achieving an ISO 9002 Certificate of Compliance for the plant at which she worked, Dickinson became a patent librarian for Standard Oil Company. From there she moved to Cook County Hospital, where she served as Director of Biochemistry. It was here that she became inspired to open Pentex Incorporated.

Awards and Achievements

Dickinson didn’t retire until late 1995, after an illustrious career in science that spanned nearly 50 years. Within that timeframe, she was granted a long list of commendable rewards. Some of her best awards include:

  • An Athena Award
  • Chamber of Commerce Business Woman of the Year
  • Honoree in the Harvard Business School Publication: The Women MBA
  • Honorary Doctor of Business Administration at North Central College
  • The Olivet Nazarene University Lifetime Achievement
  • Reed Institute for Advanced Study of Leadership
  • Kankakee Community College 2016 Foundation Visionary Award

In addition to these achievements, she also remained a fixed and steadfast role model for other women who wanted to break into science or business, a constant reminder of what was possible and why women were just as capable as their male counterparts.

Are you a woman in science who looks up to Trudy Dickinson, too? Having the right tools at your side can greatly benefit your research. Visit Scientific Notebook Company for scientific notebooks and other equipment to help make your life’s research much easier.

Pioneer of Science

The Greatest Minds of All Time Used Scientific Notebooks

Long before there were computers, the greatest minds of all time relied upon scientific notebooks to record their theories, hypotheses, data, tests, and other findings. By hand writing the information in their own personal notebooks, they were able to create a library of works that have been used by other scientists, philosophers, mathematicians, and thinkers to further build upon the original concepts and ideas developed by these outstanding people.

Marie Curie

Marie Curie worked alongside her husband Pierre Curie to discover radium and polonium. After the death of her husband, Mrs. Curie continued her research, and she was responsible for creating the term “radioactivity.” Today, her notebooks, along with numerous items she had in her home, are considered too radioactive to handle without proper protection.

Albert Einstein

Albert Einstein

One of the most well-known scientists of our time, Albert Einstein is probably best recognized by the development of his Theory of Relativity. Mr. Einstein avidly wrote in his notebooks, which he later referenced as he made new discoveries. In fact, the first documentation of the Theory of Relativity can be found in his notebooks dating back to 1912 and 1913.

Max Planck

Best known for the development of Quantum Theory, Max Planck did not initially set out to make this discovery. He accidently discovered energy and how it behaves largely, in part, from reviewing data he had collected and recorded in his notebooks.

Robert Goddard

Robert Goddard was well ahead of his time. He invented and built the first rockets using liquid fuel. He also successfully launched the first one in 1926. While many of his colleagues ridiculed him for his belief that one day man could use a rocket to travel to the moon, and quite possibly Mars, his discoveries helped pave the way for the space program and creation of NASA.

Sigmund Freud

Sigmund Freud developed the concept of psychoanalysis and helped further the fields of psychology and psychiatry. Dr. Freud made it a habit of recording his concepts in notebooks as he attempted to understand the unconscious mind. While, today, many of his original theories are no longer practiced, they did initially change the way in which people viewed themselves.

Niels Bohr

Niels Bohr is credited with advancing the study of atoms and their structures. It was his work that helped lead to the creation of the Atomic Bomb, and this would not have been possible if he had not documented his theories in notebooks.

Atomic Bomb

Enrico Fermi

Another physicist, Enrico Fermi, started his career by reading two books on physics and documenting changes to many mathematical errors he found. Later, he conducted experiments with neutrons and developed the concept of splitting atoms. He even conceptualized how to create a nuclear reaction. Ultimately his efforts contributed greatly to the development of the Atomic Bomb.

Scientific Notebook Company has hoped you enjoyed learning more about the great minds of all time. For all of your scientific, lab, and engineering notebook needs, please feel to contact us at 800.537.3028 today!



The Science of How a Hurricane Works

Through science, the human race has achieved many great things. Ancient Egyptians built astonishing pyramids, Einstein dreamed up the Theory of Relativity, and modern humanity has even traveled to the moon. These are just three of humanity’s greatest achievements. The evidence that the human race will one day rise far above where we are today, creating technologies that would today baffle the world, is clear, and it is sometimes documented in laboratory notebooks.

However, for all of the incredible discoveries on Earth, we still struggle to understand the weather. We know a lot about weather, such as how patterns influence it, how humans influence it, and how it can influence us, yet we still cannot perfectly predict what will happen when it occurs.

Intense weather certainly seems to be more common, especially when it comes to hurricanes – but is that true? What’s really going on inside these types of storms that seem to plague coastal towns across the country all too often?

Hurricane Season

Hurricane Basics

Understanding how a bit of rain and wind goes from a small storm to a giant, roving hurricane starts with understanding hurricane basics. First, the word hurricane can be a bit of a misnomer – tropical cyclone is a much more accurate term. The term cyclone in meteorology refers to the fact that the storm spins around a low-pressure center.

All hurricanes begin over the seas in and around the equator, where warm water gives rise to warm, very moist air. That warm, moist air mixes with cooler, upper-level air, producing thunderstorms and causing winds to pick up quickly. The warmer the water, the greater the storm – this is why most hurricanes begin in the summer or fall.

Often, an area of ocean will experience multiple thunderstorms in a small cluster. Gentle upper-level crosswinds eventually draw them together, creating one massive storm instead of several smaller systems. Then, convection helps to make the storm stronger.

The Role of Convection

Once a large thunderstorm exists over the tropical ocean, convection comes into play. Convection refers to the fact that, as warm air rises, it cools and then falls back to the earth. This process creates pressure around the storm. As the warm air rises, more air rushes in from the outside toward the center.

This, combined with the natural rotation of the Earth itself, is what produces a hurricane’s spin. As long as the waters remain warm, this process will continue to build on itself, and eventually the entire storm will spin faster and faster. It’s then that the “eye” of the storm is fully formed.

The stronger the storm, the larger the eye. Though the weather within the eye tends to be calm, the area directly around it – known as the eyewall – is also the most dangerous. This is the area that meteorologists spend the most time studying, jotting down information in scientific notebooks in an attempt to track patterns over time.

The Eyewall’s Power

As pressure builds and contrasts within the storm, the area directly around the eye becomes extremely powerful. Because the storm sucks up warm air from the center, the eyewall surrounding it contains the strongest rainstorms and the most downward pressure. Think of a straw filled with water; when you suck the water up, it comes up the straw and spills back down over its sides; it’s the same for hurricanes. This is the area of a hurricane that causes the most damage, although lesser rainfall and high winds can occur as far out as the outer edges of the storm.

Cooling Process

Fortunately, and, sometimes, unfortunately, most hurricanes do eventually get pushed out of tropical waters and onto land, as is documented by meteorologists. This is where much of the damage from storms like Hurricane Matthew is sustained. As the tropical cyclone moves away from warm ocean air, it loses some convection, and pressure begins to balance out once again.

The cool air reduces spin and wind speeds but doesn’t really impact rainfall specifically. That’s moderated by the fact that the storm can’t pick up as much moisture traveling over land. Eventually, the eye will collapse, and the storm dies down further, dropping out of hurricane status to become a tropical storm, and then melting back into thunderstorms and, eventually, just rain.

For more information about stories similar to this one, feel free to follow our blog, as we’re constantly publishing compelling stories focused on science and the many innovations that are going on around the world.

How a Hurricane Works

Benefits of a Music and Science Partnership

Music and science are a bit like bread and butter; delicious on their own, but incredible once they come together and things start to heat up. Research is proving yet again what scientists from several decades ago always suspected. Music training and enjoyment of any kind can, in fact, make us smarter and more capable of understanding complex scientific concepts later in life.

We can attribute the fact that we know this to the dedicated researchers who spent countless hours huddled over a lab notebook, dissecting information to identify patterns found in testing. What exactly is it about this magical music that makes it so absolutely enchanting and so healthy for the brain? It has to do with the neurology of the brain.

Benefits of a Music and Science

How Music Influences the Brain

It’s not really news to anyone that music can be enjoyable. Crank up your favorite tunes and dance it out or play some soothing classical, and you can feel the difference in your mood. In some ways, listening to music is just another form of altered consciousness – albeit one without any real negative effects, unless you happen to listen a bit too loud.

It can motivate you and tell your brain to release adrenaline and endorphins, relax you when you’re a bit too wired up, and may even cause a select group of individuals with a condition called synesthesia to perceive colors, shapes, or numbers associated with it.

If music were a drug, we’d call it a potent psychoactive, but, unlike medications, music also has the ability to make us wiser because of the way the brain processes it.

Why Music Makes You Wiser

The first step in understanding why music is so influential is to understand that the same neurological activity and areas of the brain are used in memorization, memory recall, and even language. These are the areas that help us recall faces, study for exams, or even memorize test results when engaging in research. The difference is that music has both a logical formulaic function and an emotional tie, and this can persuade your brain that the information it is taking in is more important and should be held for later use.

This fact also explains why it’s easier for us to remember song lyrics than, say, a telephone number or the name of someone we’ve only just met. It also explains why taking study topics and turning them into songs allows the brain to more easily retain that information.

Long-Term Benefits to Scientists

Simply listening to music while you work, whether you’re studying or writing up reports on your cleanroom notebook or engaging in an incredibly delicate test, can help you to stay focused and in tune with what you’re doing, and may even help you to retain any new theories you discover as you go.

The benefits don’t stop once you turn the music off; a study by the University of Kansas is illustrating the fact that musical training of any kind has long-term cognitive benefits to the brain. They tested participants on their cognitive ability after sorting them into groups representing how much musical experience they had. The result? The more musical experience a participant had, the better they did on the test.

Interested in learning more about other scientific discoveries? Be sure to follow our blog where we’re constantly posting compelling blogs that will keep you entertained and amazed with the many wonders of science.

Music Influences the Brain

2016 Nobel Prize Winners Cream of the Scientific Crop

If you’ve ever found yourself wondering what happened to that quiet guy from high school who was always carrying around a scientific notebook, you may want to check out the latest Nobel Prize Winners. While these geniuses may not have been in your social crowd in school, their deep thoughts and future plans might have been the reason. These bright individuals could be well on their way to becoming a Nobel Prize holder. These are the cream of the scientific crop who have been recognized in 2016 by being awarded a Nobel Prize.

Scientific Crop


The 2016 Nobel Prize in Physics has been awarded to David J. Thouless, F. Duncan M. Haldane, and J. Michael Kosterlitz for “theoretical discoveries of topological phase transitions and topological phases of matter.” While lay people may not understand what that means, it is a significant advancement in the area of physics.


For the design and synthesis of molecular machines, the Nobel Prize committee has recognized Jean-Pierre Sauvage, Sir J. Fraser Stroddart, and Bernard L. Feringa in 2016. Molecular studies are something that is ongoing and which will affect many different areas of chemistry, medicine, and health studies for the future.


Yoshinori Ohsumi has been awarded the Nobel Prize in Physiology or Medicine for his discovery of mechanisms for autophagy.


The official Nobel Peace Prize for 2016 has been awarded to Juan Manuel Santos for his efforts to bring his country’s more than 50 year long civil war to an end.  The Nobel Peace Prize is the most well-known of the Nobel Prizes awarded each year, and is always given to someone who has made significant strides in achieving or working toward peace.


Many people aren’t aware that there is a Nobel Prize for Literature. Those of us who keep tabs on the people who have reached us over the years were thrilled to find out that Bob Dylan has been awarded this prestigious recognition in 2016. Mr. Dylan was recognized “for having created new poetic expressions within the great American song tradition.” Folk music fans from the 60s are very familiar with Bob Dylan, and it seems that his musical contributions through the years are recognized in today’s multicultural and diverse world as well.

The Nobel Prize committee is made up of a group of people who are able to see and recognize the value of the discoveries and ideas of the people in the scientific community and throughout the world in positions of influence. The decision to honor someone with one of these awards is not taken lightly. The person must have truly done something or discovered something that benefits humankind. The categories for Nobel Prizes cover nearly all aspects of science, humanity, and world matters.

When you look around at your coworkers and contemporaries, do you ever take notice of those who seem to be completely immersed in bound notebooks or studying obscure topics? Those are the people who often find themselves being considered for Nobel Prizes. The people who develop new ideas, discover amazing facts and reactions, and create a better world for the rest of us.

Scientific notebooks

Recently Discovered: Earth’s Oldest Ocean Crust Formed 340 Million Years Ago

Dr. Roi Granot, a scientific researcher from BGU (Ben Gurion University of the Negev) in Israel recently discovered the earth’s oldest ocean crust under the Mediterranean Sea. It is estimated the crust is 340 million years old and is a significant discover.

Ocean crust is much thinner than continental crust. It is formed when volcanic tubes under the ocean erupt, spewing forth magma from the mantle. When it hits the cooler ocean waters, it starts to harden. During this process the minerals within the magma become magnetized to the earth’s magnetic poles.

As such, they are essentially bar coded time stamps as to when the crust formed, since scientists can determine the direction the magnetic materials were aligned to, and match that to the earth’s magnetic poles for a particular time period.

Oldest Ocean Crust

Ocean crusts have been studied in great detail throughout the Atlantic and Pacific oceans. One important difference between ocean and continental crusts is that ocean crusts are recycled back into the earth along subduction zones. Since the earth recycles ocean crusts on a continuous basis, the oldest ones are roughly believed to be about 200 million years old or less, depending on the area in the world. It was previous believed the crusts in both oceans were among the oldest on the earth.

What makes Dr. Granot’s research interesting and exciting is that, previously, not much research was conducted in the Mediterranean due to a rather thick layer of sedimentary coverage over the ocean crust in this region. However, thanks to advances in technology and magnetic imaging, Dr. Granot was able to overcome this previous obstacle.

As a result, he was able to capture images of the magnetic striping found within the crust at the bottom of the Mediterranean Sea. He and his team of researchers covered some 7,000 kilometers of sea floor in the Herodotus Basin region from 2012 to 2014. To capture the alignment of the magnetic stripes within the crust, they used a device called a magnetometer that they towed behind their boat.

340 million-year-old ocean crust

By using the magnetic striping, along with various patterns within the stripes, Dr. Granot was able to date the sea floor to roughly 340 million years ago. He further hypothesizes that the basin is a remaining remnant from the Tethys Ocean, which existed long before today’s oceans. If his hypothesis is correct, it would also be a great scientific discovery, as it would mean that the world’s oceans formed earlier than currently believed.

Additional research is still needed to further substantiate Dr. Granot’s findings. You can be sure that Dr. Granot and his team of researchers recorded their findings in scientific notebooks for future study and research. These official laboratory notebooks are like the ones you can find at Scientific Notebook Company. Contact us today for official research, laboratory, student, and engineering notebooks for your scientific and engineering projects by calling 800.537.3028.



Scientists Discover a New Kind of Fire Called “Blue Whirl”

The University of Maryland’s’ scientists have discovered a new type of fire, which they have aptly named “Blue Whirl.” This new fire is small, whirling, transparent, and blue. It opens insights into new ways to use fire for cleaner burning, as well as opens up a wide range of potential applications, like cleaning up oil spills.

The new fire was discovered using the basic principles of how fire behaves in nature. In cases where hot air is rising from the ground quickly, a whirling and spinning circulation sometimes forms, much like a tornado. However, the air is not the only thing spinning, and the fire also gets pulled into the whirling mass. Some people might know fire whirls as fire devils or fire tornados.

yellow fire whirls

Fire whirls tend to burn much faster and hotter than normal fires. In nature, fire whirls can be dangerous when they occur during wildfires. Fire whirls have also been known to form during chemical fires, too. It is this concept of the fire tornado that scientists examined in greater detail. What if the power of the fire tornado could be harnessed, much like electricity was?

Yellow and orange fire whirls are signs there is insufficient oxygen levels to fully burn the fuel. As a result, the combustion process is incomplete and allows soot, particles, and pollution to be released into the air. By introducing sufficient levels of oxygen, scientists have been able to evolve fires from the traditional orange and yellow fire whirls into blue whirls.

The blue flame signifies the right balance between oxygen and fuel. As a result, the fuel burns more efficiently with little to no pollutants, particles, or soot being released into the air. The blue whirl has only been created in the laboratory, as this is the first time fire whirls were studied for potential applications.

Blue Fire Whirl

During their initial experiments, scientists accidently discovered blue whirls. Scientists were observing how fire whirls would behave over water when they noticed blue whirls forming. These blue fire tornadoes burned the fuel steadily and efficiently, leaving very few byproducts.

One practical application for blue whirls would be in the cleanup of oil and petroleum spills in the ocean or other bodies of water. For larger spills, they are enclosed using various methods and then set on fire. The fire releases smoke, pollutants, and other toxins into the air. With blue whirls, the process would be made cleaner and more efficient.

Since blue fire burns optimally, there would be fewer emissions released into the air; not to mention, the spill could be cleaned up faster. Scientists plan to continue to explore and discover other applications for blue whirls.

Whether you are studying fire whirls or trying to discover the cure for cancer, you need to record your findings and notes in official laboratory and research notebooks available from Scientific Notebook Company. Call us at 800.537.3028 today for more information!