Tag Archive for: #thenew

“De-aging” George Washington

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Special note: This story has been condensed and reprinted from the Summer 2006 edition of The Affiliate newsletter. Part of our Seriously Amazing Affiliates blog series.

Mount Vernon Estate and Gardens has preserved the home of George Washington for more than 150 years, always striving to present the most current and well-researched scholarship about our nation’s first president. In 2006, the Donald W. Reynolds Museum and Education Center opened at Mount Vernon, featuring three life-size mannequins of Washington, created, in part, through a unique collaboration between Mount Vernon, a Smithsonian Affiliate; several Smithsonian experts; and the National Museum of Dentistry, also an Affiliate. 

Jeffrey Schwartz, physical anthropologist and professor at the University of Pittsburgh, led the two-year effort. Using his knowledge of teeth and bone structure, Schwartz examined the existing evidence for clues about George Washington’s appearance at different times in his life. Aiding him in this forensic reconstruction was the Partnership for Research in Spatial Modeling (PRISM), a laboratory at Arizona State University that specializes in 3-D digital imaging.  

3-D computer generated images are a result of scanning Washington’s life mask and portrait bust. Photo courtesy of Mount Vernon Ladies Association.

Mount Vernon identified the many relics of Washington’s life that could provide necessary information. Using a computerized digital scanner, Schwartz scanned a 1785 life mask owned by the Morgan Library & Museum, a Jean-Antoine Houdon bust at the Corcoran Gallery of Art and a full body Houdon sculpture in the Virginia State Capitol Rotunda. Many of the Washington objects owned by the Smithsonian were also scanned or examined by Schwartz and his team.  

One of the biggest challenges was determining what Washington looked like as a young man as no portraits depict his image before the age of 40. To help, the National Portrait Gallery provided insight into the many portraits of Washington, as well as into the conventions of 18th century portraiture. 

Washington’s dentures played a vital role in reconstructing Washington’s face. As he lost teeth and bone in his jaw, the shape of his face changed. Dentures also change the jaw line depending on how they fit in the mouth. By examining the dentures that Washington used in his lifetime, the team was able to create a timeline that identified the progression of Washington’s tooth loss. As the mannequins depict Washington at the ages of 19, 45 and 57, this timeline provided critical information on the changing shape of Washington’s face. 

A set of George Washington’s dentures. Photo courtesy of the National Museum of Dentistry.

Three versions of Washington’s dentures can be found at the National Museum of Dentistry in Baltimore, Maryland. One is an original, complete denture for the lower jaw dated 1795, while the other two are replicas of dentures in other collections. 

Since 18th century portraits emphasized the sitter’s face and not the body, information on Washington’s build was extracted from his clothing. By taking volumetric measurements of his trousers, waistcoats and shirts, clues to Washington’s height (6’ 2”) and build could be extrapolated.  

The National Museum of American History gave the team access to Washington’s military uniform which provided the prototype for the costume to be worn by the 45-year-old mannequin depicting Washington at Valley Forge.  

After consulting with these experts, the scans and measurements were fed into a special computer program that produced three-dimensional images of Washington. Eventually, the images were printed out or “milled” on a special machine into high-density foam, and the mannequins became reality.

An “Out of this World” Experience

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Special thanks to Sonchia Jilek, Executive Director, The Pinhead Institute, a Smithsonian Affiliate in Telluride, Colorado, for this guest post. Part of our Youth Capture the Colorful Cosmos blog series. Seriously Amazing!  

This summer, I had the opportunity to lead one of our most memorable programs, Youth Capture the Colorful Cosmos program, thanks to a grant from the Smithsonian Youth Access fund.

Courtesy Pinhead Institute.

The grant funded Pinhead’s first “Astrophotography Camp” to help provide underserved middle-school youth access to the resources of the Smithsonian Astrophysical Observatory through the MicroObservatory Telescope Network. As a Smithsonian Affiliate, the first in Colorado, the Pinhead Institute was honored to receive this special grant.

I decided to host this program in our outreach area in Naturita, Colorado. Naturita is a former uranium mining community located approximately 20 miles east of the Colorado-Utah border. With the Uranium Mill closing back in the 1980s, the town now supports a community of only 600 people. Located within this small town is an excellent library that hosts the majority of events for kids and adults. The heart of this town is the Naturita Public Library, named the Best Small Library in America in 2011 by the Library Journal.

The Naturita Public Library played host for our first “Astrophotography Camp.” This camp ran three hours a day for one week in August. Twelve students attended for free, thanks to the funding from the Smithsonian. The size was only limited based on the number of available computers at the library. The students came in with little knowledge of the solar system, galaxies, or the greater universe. They left empowered and engaged by the enormity of space.

Our first day consisted of learning all about telescopes and working on vocabulary. The kids learned the difference between a planet and a nebula and learned how a telescope “sees” differently than a human eye. The curriculum for this first day of our camp was found through the Harvard-Smithsonian Center for Astrophotophysics MicroObservatory website. Through online webinars with Mary Dussault and Erin Braswell from the Harvard-Smithsonian Center for Astrophysics, I felt comfortable using the curriculum and leading this first part of our camp on my own.

Courtesy Pinhead Institute.

Over the next few days of the camp students learned to control the robotic telescopes through the online MicroObservatory to take images of galaxies, planets, nebulas, and the moon. Many of these students had never worked on computers. So, beyond learning about our universe, these students had the opportunity to learn computing skills. The images students selected from the MicroObservatory site were emailed to the students, which they manipulated using special software used by professional astronomers to create beautiful space-based art projects.

Our final day consisted of the students creating their poster projects to exhibit selected telescope images. The girls used a lot of glitter and sparkles to help display their images of the moon and various nebulas. The boys’ posters included references to sport heroes alongside their galaxies and planets.

The poster exhibition went on display at the Naturita Library and in late August. Parents joined their kids as they presented their posters and described what they learned and how they processed their images. It was a great event, reflective of this amazing community, and showcased the student’s passion for sharing what they had learned.

We work with communities surrounding Telluride in Southwestern Colorado. Pinhead aims to teach students of all ages about the wonders of science. We host a number of great programs that teach students about how science is fun, creative, and a part of their daily lives. Our outreach extends from Telluride to Ridgway, to Ouray, to Norwood, and to Naturita, reaching more than 5,000 kids each year, providing thousands of hours of science enrichment opportunities in our remote part of Colorado.

Naturita is a special community, and is one of our favorite places to host our programs. We are always looking for new programs to offer out in this rural town. The Colorful Cosmos program was the perfect fit not only for Pinhead’s capacity, but also the perfect fit for the students in Naturita. Despite our isolated location, I was able to learn everything I needed to know remotely. All of the resources provided through the Smithsonian and the Harvard-Smithsonian Center for Astrophysics exceeded my expectations and made this camp an incredible learning experience with only a few hiccups. We are planning on extending the astrophotography camp to our local communities in the very near future.

Courtesy Pinhead Institute.