Showing posts with label chemistry. Show all posts
Showing posts with label chemistry. Show all posts

Monday, October 8, 2012

Five Inspiring Hispanic Scientists

One of many inspiring Hispanic scientists: Dr. Helen
Rodriguez-Trias, physician, educator, and advocate
for women's health and equal access to medical.
care. Image Courtesy: National Library of Medicine
The U.S. Census Bureau estimates that the Hispanic population in the U.S. will reach 132.8 million (or 30 percent of the total U.S. population) by the year 2050.   But Hispanic students (as well as other minorities) continue to be underrepresented in the STEM disciplines and to receive STEM degrees at a lower rate than their White counterparts. In K-12 education, Hispanic students are more likely than Whites to be exposed to funding inequities and to have science teachers who did not major in science.

In the face of these disparities and in honor of National Hispanic Heritage Month, we're highlighting five Hispanic scientists that have had a major and lasting impact on the world around them.   In many cases they overcame obstacles, including racism and sexism, poverty, cultural and family expectations, and lack of mathematics background, in order to work and excel in the fields that they love.  Our hats are off to all of them, and to anyone out there who is studying or working in a STEM field.  May these stories inspire you.

Dr. Helen Rodriguez-Trias (1929 - 2001)
"We cannot achieve a healthier us without achieving a healthier, more equitable health care system, and ultimately, a more equitable society."

Helen Rodiriguez-Trias combined the two things she loved most--science and people--by pursuing a career in medicine. Born in New York city in 1929, Rodiriguez-Trias moved back and forth between New York and her parents' native Puerto Rico during her childhood and early career.  She graduated from the University of Puerto Rico Medical School in 1960 and established the island's first center for the care of newborn babies, which dramatically lowered the death rate for newborns at the hospital where she completed her residency.

In 1970, she moved back to New York where she became head of the pediatrics department at Lincoln Hospital in the South Bronx.  In addition to her work as a physician, Rodiriguez-Trias fought to improve medical care for people who had limited access due to poverty, cultural and language barriers, and discrimination. Among her many leadership roles, Rodiriguez-Trias served as the (first Latina) president of the American Public Health Association and the medical director of the New York State AIDS Institute. She also became a tireless advocate and leader in the women's health movement, fighting for equal access to healthcare for poor women and children and fighting against the horrifying practice of forced sterilization. In 2001, less than a year after receiving the Presidential Citizen's Medal, Helen Rodriguez-Trias succumbed to cancer.

For more, visit the National Library of Medicine and the American Journal of Public Health


Dr. Francisco Dallmeier (1953 - )
"In this century we will make the final decisions about how this sixth species extinction currently in progress will end… It is a tremendous responsibility."

At a very young age, Francisco Dallmeier knew that he wanted to follow in his great-grandfather's footsteps and make a career out of working with plants and animals.  At 14, he began volunteering at the La Salle Museum of Natural History in his hometown of Caracas, Venezuela.  He moved up the ranks with remarkable speed, and by age 20, he was appointed director of the museum.  At the same time, he was working toward a biology degree at the Central University of Venezuela, and he eventually moved to the United States to pursue a masters and then a Ph.D. in wildlife ecology at Colorado State University. 

From Colorado, Dallmeier went to Washington, DC to work at the Smithsonian Institution.  As the head of the Smithsonian's Monitoring and Assessment of Biodiversity (MAB) program, he has developed important and widely-recognized techniques for measuring and tracking changes in biodiversity. Dallmeier has worked all over the world in places as far reaching as Gabon and Peru focusing on ways to help environmental advocates and industry work together to reduce the impacts of human development.  MAB now has more than 300 research plots and trains scientists around the world in the tools and techniques of conservation biology.

For more, visit the Smithsonian Conservation Biology Institute and the Friends of the National Zoo


Ynes Mexia (1870-1938)
Ynes Mexia found her true passions--botany and exploring--a bit later in life.  The daughter of a Mexican diplomat and an American socialite, Mexia was born in Washington, DC in 1870.  She made her first career as a social worker, and it wasn't until age 51 that she began taking classes in botany at the University of California at Berkeley. In 1925, she joined a botanical collecting expedition to Mexico sponsored by Stanford University but decided to break off from the group to collect on her own.  She returned with more than 1,500 plant specimens, but that was only the beginning.

Mexia went on to conduct collecting expeditions (often solo) in Alaska, the western U.S., Mexico, and South America, including a 4,800-kilometer canoe trip along the Amazon River. During her last expedition to Mexico, she became ill and was diagnosed with lung cancer. She died in 1938 shortly after her diagnosis.  Mexia's career in botany was short, but her contribution was large: in 13 years of work she collected nearly 150,000 specimens.  Among those, roughly 500 were new species, and two were new genera.

For more, visit JSTOR Plant Science and the UC Berkeley Jepson Herbaria


Dr. Ellen Ochoa (1958 - )
As a child growing up in La Mesa, CA, Ellen Ochoa loved math and music.  She earned her undergraduate degree in physics from San Diego State University, and was contemplating a career in business or as a classical flutist. In the end, she decided to go to graduate school for electrical engineering at Stanford University. In 1983, two years before Ochoa completed her Ph.D., Sally Ride, the first American woman in space, made her first shuttle mission.  Ochoa was inspired, in part by Ride, to apply for the astronaut program.  She was accepted and became an astronaut 1991.  She would soon become the first Latina to go to space.

Since then, Ochoa has logged 978 hours in space, earned three patents, and held a slew of leadership posts at NASA that include assignments on four space missions (at least one of which involved a flute recital in space).  Ochoa now serves as Deputy Director of the Johnson Space Center and has received many awards for her work as an engineer, physicist, astronaut, and leader.  She has also traveled around the country sharing her experiences with students in the hopes that they will be inspired to dream big and follow their passions.

For more, visit Latina Women of NASA, the Lemelson-MIT Inventor Archive, and NASA News


Dr. Mario Molina (1943 - )
"I am heartened and humbled that I was able to do something that not only contributed to our understanding of atmospheric chemistry, but also had a profound impact on the global environment."

By age 11, Mario Molina had already decided that he wanted to be a research chemist.  Born in Mexico City in 1943, Molina was hooked on science the first time he peered through a microscope and saw tiny amoebas swimming around. He converted a little-used bathroom in his family's home to a chemistry lab, and, with the help of an aunt who was a chemist, began conducting chemistry experiments appropriate for college freshmen. After attending boarding school in Germany, Molina returned to Mexico to study chemical engineering at Universidad Nacional Autónoma de México (UNAM).  When he graduated, Molina knew he wanted to pursue a Ph.D. in physical chemistry, but he also knew his math and physics skills would be behind other students who had majored in physical chemistry.  He did some graduate coursework in Germany, spent several months studying math on his own, and taught at UNAM before eventually applying to get his doctorate at University of California at Berkeley.

With his Ph.D. in hand, Molina went to work in the lab of F. Sherwood Rowland at the University of California at Irvine. There, he began studying what happens to a class of nonreactive chemicals called chlorofluorocarbons, or CFC's, when they are released into the air.  Molina and Rowland quickly realized that when the sun breaks down CFC's in the upper atmosphere, the chlorine atoms released catalyze a reaction that destroys ozone molecules. That reaction, repeated over and over again, would eventually deplete and lead to thin spots in the Earth's protective layer of ozone.  This realization, combined with work by another scientist named Paul J. Crutzen who was studying the ozone layer over Antarctica, eventually led to a global ban on CFC's--and to the 1995 Nobel Prize in Chemistry for the three researchers.

For more, visit the Nobel Prize Foundation


These are just a handful of the many, many inspiring stories out there, and it was extremely difficult to pick five.  Please share your thoughts with us: which Hispanic scientist(s) do you find most inspiring?


LEARN MORE
If you are interested in learning more about these and other Hispanic leaders in science, check out these resources.

Society for the Advancement of Chicanos and Native Americans in Science

SACNAS Biography Project

The Society of Mexican American Engineers and Scientists (MAES)

SHPE Foundation (Advancing Hispanic Excellence in Technology, Engineering, Math, and Science)

Latinos in Science, Math, and Professions by David E. Newton (book)

Friday, September 14, 2012

Image of the Week: Printing Blood Vessels and a Whole Lot More

Blood Vessels Created by 3D Printing
In a paper published this week in the journal Advanced Materials, Dr. Shaochen Chen
demonstrated that blood vessels, which could eventually be used in artificial tissue, can be
created using a new 3D printing technique called dynamic optical projection stereolithography.   
Image courtesy: Biomedical Nanotechnology Laboratory, Chen Research Group, UC San Diego Jacobs School of Engineering

Do you have a good printer at home?  What about one that can print you a new car part, a toy, or another 3D object?  It may sound bizarre, but 3D printing (also known as additive manufacturing because a printer typically builds an object by slowly adding layers of material) is becoming more common in a wide range of contexts, including the battlefield and the medical field.

Our image of the week shows artificial blood vessels printed by researchers in the Biomeidcal Nanoengineering Lab at US San Diego.  Their technique uses light to trigger the formation of a solid 3D structure from a solution containing cells and biomolecules that are photo-sensitive (or reactive to light).  By carefully controlling the beam of light with a series of mirrors, they are able to fabricate tiny, intricate structures like those found in nature.  They believe the new process will lead to better tools for growing cells in the lab and could eventually even allow medical professionals to print tissues for regenerative medicine.

LEARN MORE
Watch an amazing video and read about another application of 3D printing that was recently in the news: a bald eagle named Beauty was given a prosthetic beak made on a 3D printer after being injured by a gunshot. (Warning: although there's a happy ending, images may not be suitable for sensitive readers and viewers.)

Read the Science Insider piece about the newly created National Additive Manufacturing Innovation Institute and the wide potential uses for and benefits of 3D printing.

Read yesterday's story in Reuters about how the business of 3D printing is starting to make its way into individual homes and garages.


Wednesday, August 22, 2012

War Paint Gets a Chemistry Make Over

Soldiers Apply Camouflage Make Up
North Dakota National Guard recruits practice applying camouflage
face paint as part of their training. Chemists from the University of
Southern Mississippi are formulating a new silicon-based paint that
can reflect the intense heat of a bomb blast or fire.
Image: Senior Master Sgt. David Lipp, courtesy of The U.S. National Guard (CC)
This week, thousands of scientists are gathered in Philadelphia, PA for the American Chemical Society's annual meeting.  They'll be doling out the 2012 Heroes of Chemistry awards and discussing all kinds of chemistry-related topics from climate change to drug treatments for chronic diseases

But one symposium in particular caught our eye: Polymers for Personal Care and Cosmetics.  Most of the presentation abstracts focus on the ingredients and chemical properties of familiar products like toothpaste, hairspray, and skin cleansers--which are fascinating in themselves.  But one presentation describes a newly developed camouflage face paint that can shield the skin from the heat of a bomb blast or fire.

For Dr. Robert Lochhead and his research team at the University of Southern Mississippi, developing the prototype of this super make-up for the U.S. Department of Defense was truly a chemistry puzzle. They needed to create face paint that would reflect intense heat but was also waterproof, easy to apply and remove, worked as camouflage, didn't irritate the eyes, and contained at least 35 percent of the insect repellent DEET.

Most commonly used combat face paints have an oil or wax base, which is flammable and may make burns worse by melting to the skin. Lochhead and his team took a cue from many modern cosmetics and substituted silicon for these traditional hydrocarbon ingredients.  Then they used a hydrogel (a network of polymers capable of holding a large amount of water) to encapsulate the DEET and prevent it from catching fire.

In lab tests, the new paint protects skin from intense heat for between 15 and 60 seconds--potentially enough time to allow a soldier or fire fighter to move to safety. The researchers also plan to test it on clothing, tents, and other surfaces that could benefit from extreme heat protection.


LEARN MORE
For more about the purpose and importance of scientific meetings see our module on Scientific Communication: The How and Why of Scientific Meetings.

For more about how professional societies like the ACS help foster scientific progress, read our module on Scientific Institutions and Societies.

For a fun look at the chemistry of everyday items, check out Chemical and Engineering News' "What's that STUFF?" page.

Thursday, August 2, 2012

Image of the Week: NASA's Curiosity to Land on Mars Sunday

An artist's rendering of Curiosity in the Gale Crater on Mars. Image Courtesy: NASA/JPL-Caltech

You can bet that scientists at NASA's Jet Propulsion Laboratory will be at work late this Sunday.  In fact, they'll likely be at the edge of their seats until at least 10:31 pm local (Pacific) time--that's when the new Mars rover Curiosity is scheduled to touch down and begin its search for evidence of life on  the Red Planet. Just landing the car-sized rover safely in Mars' Gale Crater will be a feat of physics. (Among other things, it requires a maneuver engineers call a sky crane, which involves lowering the rover on a cable from a hovering rocket stage released by a passing spacecraft.)

Once Curiosity has its wheels under it, it will be a rolling geology and chemistry lab. It's equipped with cameras, a drill, a sieve, analytical tools for assessing the chemical composition of air and soil samples, and laser called the "ChemCam" that can vaporize bits of rock from roughly nine meters (30 feet) away and test their composition. Our image of the week shows an artist's rendering of the Curiosity examining Martian rocks with a set of tools at the end of its two-meter (seven-foot) arm.


LEARN MORE
Visit NASA's "Follow Your Curiosity" page to see more images, watch a video simulation of the Curiosity's landing, download fact sheets about the rover, or find a landing party in your state.

TELL US
Will you be watching?  If you're an educator, are you using the landing as a teaching opportunity?

Wednesday, July 11, 2012

Controversy over Arsenic-Loving Bacteria comes down to Data Interpretation

Mono Lake, California, home to the controversial, arsenic-tolerant
bacteria known as GFAJ-1.  Image Courtesy Flickr User anaurath (CC)

A little over a year ago, we ran a blog post about a provocative paper in the journal Science called "A Bacterium That Can Grow by Using Arsenic Instead of Phosphorus." Or more accurately, we ran a blog post about the heated discussion and, yes, controversy surrounding the paper.

The researchers' findings were startling because they pointed to a life form--a bacterium called GFAJ-1--that, according to the authors' interpretation of the data, did not need phosphorus to survive. In fact, the authors, led by NASA astrobiology fellow Felisa Wolfe-Simon, posited that the bacteria were replacing the phosphorus in their DNA with the normally-toxic metal arsenic.

The implications were huge. If the results were reproduced by other researchers, our understanding of what makes life possible, on Earth and potentially on other planets, would need serious revision. As soon as the paper appeared online, debate raged in the scientific community. When the paper went to press a couple of months later, it was published alongside eight "technical comments" voicing concerns about the paper's conclusions as well as a rebuttal from the researchers.

Fast forward to this Monday--July 8, 2012.

Two new papers on GFAJ-1 have been published in the online version of Science, both of which suggest that the conclusions drawn in the original study were wrong. The second round of researchers--led by Tobias Erb at the Institute of Microbiology, ETH in Zurich and Marshall Louis Reaves at Princeton--took a closer look at the situation.  They grew the same bacteria (provided by the original authors) in arsenic-rich and phosphorus-depleted conditions. For the most part, their results were similar to the original study--the bacteria did indeed continue to grow in these adverse conditions, and they did find arsenic in its cells.

But when they examined the bacteria's DNA and cellular byproducts more closely, they came to different conclusions than Wolfe-Simon's team had. The new results and their revised interpretation of the data indicate that GFAJ-1 bacteria is very resistant to arsenic (a feat in and of itself), but that it does not incorporate the metal into its genetic material and that it still needs a small amount of phosphorus to survive.

So what happened?  Was the first study "bad science?"  Did the system of peer review fail?  Does this mean that we've wasted our time studying and reading about GFAJ-1?

On the contrary.  This is the process of science. This is how our understanding of the natural world grows and evolves.

In a press statement released with the new papers, the editors of Science summed it up this way:
The scientific process is a naturally self-correcting one, as scientists attempt to replicate published results. Science is pleased to publish additional information on GFAJ-1, an extraordinarily resistant organism that should be of interest for further study, particularly related to arsenic-tolerance mechanisms.

THEN AND NOW:

Compare the Headlines:
New York Times Story "Microbe Finds Arsenic Tasty; Redefines Life," Dec. 2, 2010

New York Times Story "Studies Rebut Finding That Arsenic May Support Life" July 8, 2012


Compare the Papers:
The Original Science Paper, "A Bacterium That Can Grow by Using Arsenic Instead of Phosphorus" Dec. 2, 2010

The Technical Comments and Rebuttal from the authors, May 27th 2011


The New Science Papers, July 8, 2012
"GFAJ-1 Is an Arsenate-Resistant, Phosphate-Dependent Organism"

"Absence of Detectable Arsenate in DNA from Arsenate-Grown GFAJ-1 Cells"

Note: All related papers are free to access, but you may need to register with AAAS.

Monday, June 11, 2012

Beach Reads of the Science Variety

Looking for some titles to add to your summer reading list?
Check out some of the Visionlearning team's favorite books.  
Photo courtesy: Flickr User cmcgough. (CC)
Temperatures are on their way up and the swimming suits are coming out of hiding, which can only mean one thing: summer break. Before you buy the latest "beach lit" paperback to while away those sunny hours or download the entire Twilight saga to your e-reader, consider this humble suggestion: this summer, try a page-turner of the science variety.

Think we're joking? Not hardly.  The stories of science are full of complex and intriguing characters who experience, and are shaped by, all the same things as their fictional counterparts--conflict, mistakes, rivalry, passion, doubt, discovery, and luck, to name a few.  But these stories are even more compelling because they are true.

To get you started, we took a quick survey of the Visionlearning team's favorite (nonfiction) science books. They are a combination of recent releases and trusty classics, spanning the range of disciplines. This is by no means a comprehensive list, and we hope you will help improve it by critiquing our suggestions and offering up favorite titles in the comments section below. Happy reading!

ASTRONOMY
Death by Black Hole and Other Cosmic Quandaries by Neil deGrasse Tyson
This collection of witty essays from well-known astrophysicist and science communicator Neil deGrasse Tyson runs the gamut, exploring what would happen if you actually fell into a black hole, the most egregious astronomy errors on the big screen, and everything in between.

The Day We Found the Universe by Marcia Bartusiak
In a book that is part scientific thriller, part character-driven drama, Marcia Bartusiak describes the exciting early days of modern astronomy in the United States. The characters, some of whom are rarely mentioned in pages of textbooks, show how breakthroughs are often not single moments of brilliance, but a collection of hard work, imagination, rivalry, and luck.


BIOLOGY
The Immortal Life of Henrietta Lacks by Rebecca Skloot
One of science's unsung heroes, Henrietta Lacks was a poor tobacco farmer from Virginia whose cells (taken without her consent) were grown in culture and used throughout decades of medical research on polio, cancer, the effects of radiation exposure, and much more. Yet Lacks died virtually unknown, and her family never received compensation from the multi-billion dollar industry that her cells made possible. Science writer Rebecca Skloot offers a riveting look at Lacks' story and her legacy, weaving together biology, business, ethics, and the ties that bind families together.

Stiff: The Curious Lives of Human Cadavers by Mary Roach
Science writer Mary Roach blends humor, science, and old-fashioned grossology as she explores the fascinating exploits and scientific contributions of human bodies--after they're dead.

The Reluctant Mr. Darwin by David Quammen
As a winner of the John Burroughs Medal, David Quammen is known for his nature writing, but his ability to write about human nature and all our quirks and foibles is equally impressive. This book takes readers back to the 19th century to trace the journey of Charles Darwin--not so much his fabled voyage aboard the HMS Beagle,  but his intellectual and emotional struggle to understand the evidence for natural selection piling up before him.

Evolution's Rainbow by Joan Roughgarden
Evolutionary biologist Joan Roughgarden takes readers on a fascinating tour of sexual diversity among fish, reptiles, amphibians, birds, and mammals, challenging traditional notions of gender and sexuality in the animal kingdom and human society.

The Journey of Man by Spencer Wells
Using DNA as a guide, population geneticist Spencer Wells maps all of human history, from our earliest common ancestor to the global diversity we see today, and illuminates the surprising links that connect all of humankind.


CHEMISTRY
The Invention of Air by Steven Johnson
Prolific author Steven Johnson tells the quirky, dramatic story of Joseph Priestley--an 18th century scientist, minister, and associate of Benjamin Franklin and Thomas Jefferson, whose intellectual contributions spanned chemistry, theology, and politics.

The Periodic Table by Primo Levi
Writer, chemist, and Holocaust survivor Primo Levi blends memoir and science writing to tell the beautiful, poignant stories of his life and community--using one element from the periodic table to anchor each chapter.


EARTH SCIENCE
The Two-Mile Time Machine by Richard Alley
Climatologist  Richard Alley offers a glimpse into the world of a climate sleuth and a history of Earth's climate as written in the rings of Greenland's ice cores.

Basin and Range by John McPhee
A classic from Pulitzer Prize-winner John McPhee, Basin and Range is a poetic exploration of the rugged terrain along Interstate-80 through Utah, Nevada, and California--and the geologic processes that created it. A great book for anyone who has ever looked at a landscape and wondered how it came to be.

The Map that Changed the World by Simon Winchester
Prolific journalist and author Simon Winchester chronicles the story of William Smith--a British coal miner whose on-the-job observations of patterns in rock layers and fossils beds led him to develop the first geologic map of the strata beneath the Earth's surface. The map was not greeted with the acclaim one might expect, but Smith and the power of his idea ultimately triumphed.


ENVIRONMENTAL SCIENCE & NATURE WRITING
Last Child in the Woods by Richard Louv
Journalist Richard Louv examines the body of research showing how healthy childhood development is linked with direct exposure to the natural world and makes a compelling case that the current "wired generation" is seriously threatened by "nature deficit disorder."

The Omnivore's Dilemma by Michael Pollan
From the dizzying overabundance of a modern supermarket to the quiet intensity of wild mushroom gathering, Michael Pollan tackles the seemingly simple but ultimately profound question: what should we have for dinner?

The Sea Around Us by Rachel Carson
Today, marine biologist Rachel Carson is probably best remembered for her book Silent Spring and its role in chronicling the effects of pesticides and jumpstarting the American environmental movement. But a decade earlier, in 1951, Carson penned this beautiful, best-selling treatise on the science and poetry of the sea.

The Whale and the Supercomputer by Charles Wohlforth
Journalist and lifelong Alaskan Charles Wohlforth takes readers on a journey to the far North, where climate change is very tangible--to both the scientists studying it and the native people struggling to cope with it.


PHYSICS
How to Teach Physics to Your Dog by Chad Orzel
Physicist Chad Orzel, and his curious dog, Emmy, offer a fun, engaging, and truly unique way to explore quantum mechanics. By considering such practical questions as how to catch a squirrel or locate a bone, Orzel and Emmy dig into the history and technical details of weighty topics like particle-wave duality, the Heisenberg Uncertainty Principle, and quantum entanglement.

Einstein: His Life and the Universe by Walter Isaacson
Acclaimed biographer Walter Isaacson examines the life and world-changing ideas of Albert Einstein. Like many icons of history and science, Einstein is surrounded by legends, and Isaacson offers an interesting new take on what is fact and what is folklore.


TECHNOLOGY & ENGINEERING
The Code Book by Simon Singh
Physicist-turned-award-winning-journalist Simon Singh explores the history and science underlying the secret world of codes and cryptography from Egyptian hieroglyphics to Internet security.

The Human Factor by Kim Vincente
If you've ever felt confused, frustrated, or even endangered by the very technology that is supposed to make life easier and safer, you are not alone. Scientist and engineer Kim Vincente offers a compelling look at how technology has failed us and how we can make dramatic improvements in our satisfaction and safety by factoring the realities of human needs, limits, and habits into technology design.

Biomimicry: Innovation Inspired by Nature by Janine Benyus
Writer, educator, and sustainability consultant Janine Benyus presents a simple but powerful strategy for good design: ask nature. She argues, using compelling examples, that we can learn to design cleaner, more efficient products and technologies by studying nature's 3.8 billion-year record of innovation.


INTERDISCIPLINARY READS
A Short History of Nearly Everything by Bill Bryson
Renowned travel and nature writer Bill Bryson offers a quick and cheeky tour of, well…everything, from the beginning of the universe to the rise of modern human society. Not content to simply rehash what we know, Bryson takes readers on a thoroughly entertaining and enlightening quest to understand how we know what we know.

Merchants of Doubt by Naomi Oreskes and Eric Conway
Science historians Naomi Oreskes and Eric Conway shine the light on a group of high-level scientists who have repeatedly been the voices of dissent on topics like acid rain, climate change, DDT, and secondhand smoke and examine what can happen when scientific research is at odds with political motives.

Finally, we would be remiss not to mention Visionlearning's own book: The Process of Science by Anthony Carpi and Anne Egger
Using examples drawn from everyday life as well as historical case studies from nearly every branch of science, Carpi and Egger offer a clear and concise explanation of how science really works. While that may not sound like the first thing you'd normally toss in your beach bag, The Process of Science is an easy read and great way to reinvigorate (or start) a thirst for scientific thinking. If you're a student considering a career in science or a teacher looking for resources to help students engage in science, this is a must-read.