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Victor Hugo once said, “There is only one thing stronger than all the armies of the world: and that is an idea whose time has come.” Some of the most influential ideas in our modern era have come from the STEM disciplines, and women have been integral to transforming these ideas into world-changing discoveries and inventions. Here, we’ve highlighted seven rock star women from STEM fields, plus classroom activities you can use to help inspire your female students to follow in their footsteps.
Did you know some of the earliest computer technology was being developed in the early 1800s? And moreover, that the first computer program may have been written by a woman? Born in 1815, Ada Lovelaceopens in new window had private tutors from a young age, and she quickly developed an affinity for mathematics—a passion that led her to work with Charles Babbage on his Analytical Engine.
Despite having a rocky relationship with her famous father, Lord Byron, Lovelace continued his legacy for creativity by taking a “poetical” approach to her scientific work. Unfortunately, Lovelace died young, at age 36, and never saw the fruition of her efforts on the Analytical Engine. However, her extensive notes (including the first computer program) are now considered foundational documents in the history of computers.
Classroom Activity: Graphic Organizer
This graphic organizeropens in new window from TeachersPayTeachers is a great way to introduce your students to Lovelace’s life and work. Intended for younger students, the worksheets walk students through the major points in her life and encourage them to reflect on her impact on the world.
Marie Maynard Daly
Marie Dalyopens in new window was an American biochemist who made many important contributions in helping us understand histones, protein synthesis, the relationship between cholesterol and hypertension, and the interaction between creatine and muscle cells. Born in 1921, she first became interested in science when her father was studying chemistry at Cornell University. Unfortunately, he couldn’t afford to finish his degree, but Daly went on to become the first Black American woman in the United States to earn her Ph.D. in chemistry. She later established a scholarship fund in her father’s honor to help minority students studying chemistry and physics.
Classroom Activity: Modeling Blood Flow
In this hands-on lesson planopens in new window, students will build a simple model to explore what happens to blood flow when heart disease narrows a person’s arteries. Intended for second- to fourth-graders, this lesson should take about 50 minutes and requires simple materials such as plastic cups, straws, water, and modeling clay (see lesson plan for full details).
Hedy Lamarropens in new window was a true Renaissance woman. Born in 1914, she starred in 30 black-and-white films, and was also a gifted mathematician, engineer, and inventor. At the outbreak of World War II, she worked with composer George Antheil to create a radio guidance system that used “frequency hopping” to encrypt torpedo control signals and thus prevent enemy forces from sending the torpedoes off course. Her foundational work in these spread-spectrum techniques later contributed to the development of Bluetooth, Wi-Fi, and GPS technology. In addition, she collaborated with aviation investor Howard Hughes and his team of engineers to make planes faster and more aerodynamic.
Classroom Activity: Bombshell: The Hedy Lamarr Story
PBS produced a feature-length film on Lamarr called Bombshell: The Hedy Lamarr Story. After watching the film with your middle or high school students, use these resources from PBSopens in new window to facilitate discussions about her life. (Note: A KET Passport is required to view the entire film. A five-minute preview is available for free hereopens in new window.)
Marie Curieopens in new window is a household name for her pioneering work in radioactivity. She was the first woman to win a Nobel Prize (in physics) and the first person ever to win two Nobels (the second prize being for chemistry). Along with her husband, Pierre, and physicist Henri Becquerel, she figured out how to isolate radioactive isotopes and, in doing so, discovered two elements: polonium and radium. Curie also did extensive research in X-ray technology, and during World War I, she developed mobile radiology units (nicknamed “Little Curies”) that the Red Cross used to help treat soldiers on the field. She died in 1934 from complications stemming from her exposure to radiation over the course of her career.
Classroom Activity: Marie Curie: National Geographic Kids
Marie Curie’s discoveries involve terms your students likely aren’t familiar with. Reading Is Fundamental has put together some fun vocabulary gamesopens in new window to help reinforce the spelling and meanings of these terms.
Beulah Louise Henry
“I invent because I cannot help it—new things just thrust themselves on me.” These are the words of Beulah Louise Henryopens in new window (1887–1973), who had more than 110 inventions and 49 patents to her name by the end of her life. Nicknamed “Lady Edison” for her prolific work, she was drawing sketches of inventions as young as nine years old, and she submitted her first patent, for a vacuum ice cream freezer, while she was still in college.
Henry eventually moved to New York City and founded two companies to help her sell her inventions, which were as diverse as they were numerous. Some of her many creations include a hair curler, a vanity case, a rubber sponge soap holder, a snap-on parasol (allowing women to easily change the pattern of their parasols), a new method for stuffing children’s dolls using rubber tubing, the Double Chain Stitch Sewing Machine, and a typewriter that allowed typists to create multiple copies of a document without carbon paper.
Classroom Activity: Draw Your Invention
In honor of Henry’s astounding 110 inventions,
challenge your students to draw or create a prototype of their own invention. Henry was known for creating tools that improved upon existing technology, so give your students the freedom to create something entirely new or put a new spin on something that already exists.
Born in 1883, Edith Clarkeopens in new window broke many barriers in electrical engineering. She was the first woman in the United States to (a) be employed as an electrical engineer, (b) serve as a professor of electrical engineering, (c) deliver a paper at the American Institute of Electrical Engineers, (d) be recognized by Tau Beta Pi, and (e) be named as a Fellow of the American Institute of Electrical Engineers.
Early in her career, Clarke worked for General Electric as a “computer” (someone who performed difficult mathematical calculations by hand before modern computers and calculators). While working at GE, she invented the Clarke calculator, an early graphing calculator that solved equations involving electric current, voltage, hyperbolic functions, and impedance in power transmission lines. Her work and writings were instrumental in providing greater stability for transmission lines, which were becoming longer and carrying greater loads due to increases in technology. She died in 1959 and was posthumously inducted into the National Inventors Hall of Fame in 2015.
Classroom Activity: Shaving Equations
Scholastic has put together 15 math gamesopens in new window you can play in 15 minutes or less. In honor of Clarke’s work as a computer, we recommend the “shaving equations” activity, where you put shaving cream on students’ desk and they write the answers to equations by drawing in the shaving cream. This is a great activity for kinesthetic learners.
Alice Ballopens in new window lived a short life, but an impactful one. For thousands of years before her, Hansen’s disease (leprosy) had no known treatment or cure, and consequently, those with the disease were often condemned to isolation until they died. Ball discovered a way to inject chaulmoogra oil so that the body could absorb it and use it to treat the disease. She was the first woman and first African American to earn a master’s degree from the University of Hawaii and went on to become the university’s first female and first African American chemistry professor. Ball died in 1916, at age 24, before she got to see the fruition of her research.
Classroom Activity: Recognition Activity
In our viral culture, it’s hard to imagine people not getting credit for accomplishments such as Alice Ball’s. Have your students research people (not necessarily just scientists) who accomplished great things, but didn’t receive recognition until after their deaths. Some examples might be Vincent van Gogh, Emily Dickinson, or these seven scientistsopens in new window.
Getting Your Female Students Excited About STEM
The STEM fields wouldn’t be what they are today without the influence and hard work of women like the ones in this article. Any of your female students could be the next one to discover or invent something that changes the world, and the first step is to awaken in them a love of science and mathematics. These professional development courses from Advancement Courses give you the tools to engage and inspire your students to a greater love of science:
- Fostering Active Learning in Chemistry: Make chemistry fun and interesting again! This course shows you how to use the 5E model of science instruction to teach hard topics in chemistry in a hands-on, engaging, and inquiry-based way.
- Closing the Gender Gap in STEM: Get strategies to empower girls to pursue more opportunities in STEM fields. Learn why there’s a gender gap and how to dramatically improve girls’ confidence as they grapple with different subjects in STEM.
- Crafting Engaging Elementary Science Instruction with Stories: Integrate science and reading, and learn how to use children’s literature to motivate students, support science comprehension, and create a lifelong interest in science. Grow your students’ reading and scientific inquiry skills through engaging, student-centered lessons.
- Climate Change: Engaging Students in a Global Conversation: Help students become positive change makers in the face of climate change challenges. Learn how to teach the facts of climate change in a hopeful, empowering way that inspires students to be personally accountable and look for possible solutions.
In addition to these, Advancement Courses offers more than 280 online, self-paced PD courses covering both foundational topics and emerging trends in K–12 education. Courses are available for both graduate and continuing education credit for your salary advancement or recertification needs.
Advancement Courses offers over 280 online, self-paced continuing education courses for teacher salary advancement and recertification. PD courses are reviewed and offered in partnership with regionally accredited universities for graduate semester hours of credit and CEU/professional development hours (or their equivalent) in all 50 states.