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mitdmse
MIT DMSE
MIT's Department of Materials Science and Engineering
Feathers give birds their dazzling colors. They repel water, trap heat, and even muffle sound—letting owls hunt in near silence.
How? It all comes down to structure.
In Birds Up Close, @MIT materials engineer and lifelong birder Lorna J. Gibson takes a microscopic look at feathers, bones, bills, eggs, and flight to reveal how birds do what they do—from hovering in place to flying hundreds of miles without tiring.
Published by @mitpress and out now, the book is written for anyone curious about birds—no engineering background required. (Though there’s plenty to dig into if you want it.)
“I wasn’t writing it for engineers; I was writing it for birders—people who are curious about natural history.”
The third image here shows a feather under a scanning electron microscope, revealing the intricate structures that give feathers their remarkable properties.
Read more at the News & Highlights link in our bio
Feathers give birds their dazzling colors. They repel water, trap heat, and even muffle sound—letting owls hunt in near silence.
How? It all comes down to structure.
In Birds Up Close, @MIT materials engineer and lifelong birder Lorna J. Gibson takes a microscopic look at feathers, bones, bills, eggs, and flight to reveal how birds do what they do—from hovering in place to flying hundreds of miles without tiring.
Published by @mitpress and out now, the book is written for anyone curious about birds—no engineering background required. (Though there’s plenty to dig into if you want it.)
“I wasn’t writing it for engineers; I was writing it for birders—people who are curious about natural history.”
The third image here shows a feather under a scanning electron microscope, revealing the intricate structures that give feathers their remarkable properties.
Read more at the News & Highlights link in our bio
Feathers give birds their dazzling colors. They repel water, trap heat, and even muffle sound—letting owls hunt in near silence.
How? It all comes down to structure.
In Birds Up Close, @MIT materials engineer and lifelong birder Lorna J. Gibson takes a microscopic look at feathers, bones, bills, eggs, and flight to reveal how birds do what they do—from hovering in place to flying hundreds of miles without tiring.
Published by @mitpress and out now, the book is written for anyone curious about birds—no engineering background required. (Though there’s plenty to dig into if you want it.)
“I wasn’t writing it for engineers; I was writing it for birders—people who are curious about natural history.”
The third image here shows a feather under a scanning electron microscope, revealing the intricate structures that give feathers their remarkable properties.
Read more at the News & Highlights link in our bio
🦜 What makes bird feathers certain colors?
It's not just for looks. The colors depend on the structure of feathers at the microscopic level, which can lead to amazing blues and iridescent effects.
Lorna J. Gibson, professor emerita of @mitmeche and @mitdsme, shares more about the structural details that determine feather colors in the first Open Seminar on MIT Learn.
🔗 Watch the full seminar at the link in our bio!
#StructuralBiology #MaterialScience #MechanicalEngineering #FYP #Ornithology
In this demo of work by the Wallin Group at @MIT (Nature Communications), a soft rubber-like material called a PIG gel is exposed to light.
The illuminated regions switch from insulating to conductive, and as the light moves, new electrical pathways form—causing LEDs to light up one by one.
A striking example of how light can “write” circuits into soft materials.
@ucirvine’s Joe Patterson led an MSE Seminar on April 21, discussing how peptide-based supramolecular materials use energy to build and rearrange themselves, maintaining constantly changing “out of equilibrium” states.
📸 Jason Sparapani
@ucirvine’s Joe Patterson led an MSE Seminar on April 21, discussing how peptide-based supramolecular materials use energy to build and rearrange themselves, maintaining constantly changing “out of equilibrium” states.
📸 Jason Sparapani
@ucirvine’s Joe Patterson led an MSE Seminar on April 21, discussing how peptide-based supramolecular materials use energy to build and rearrange themselves, maintaining constantly changing “out of equilibrium” states.
📸 Jason Sparapani
@ucirvine’s Joe Patterson led an MSE Seminar on April 21, discussing how peptide-based supramolecular materials use energy to build and rearrange themselves, maintaining constantly changing “out of equilibrium” states.
📸 Jason Sparapani
@ucirvine’s Joe Patterson led an MSE Seminar on April 21, discussing how peptide-based supramolecular materials use energy to build and rearrange themselves, maintaining constantly changing “out of equilibrium” states.
📸 Jason Sparapani
Alumnus Tom Davis ’84 SM ’85 recalls a “soul-crushing” first exam at @MIT—scoring 49 out of 100 in 3.091 (Introduction to Solid-State Chemistry)—and how an unexpected comment from a TA pushed him to improve.
“He had a big smile on his face, and he said something to the effect of, ‘I expect to see you double your score on the next quiz!’” Davis recalls. “At this remove, I’m comfortable saying he was not mocking me. He was encouraging.”
Read more at the News & Highlights link in our bio
📸 Photo illustration by Gretchen Neff Lambert
Kirk Kolenbrander, DMSE lecturer and instructor for 3.091 (Introduction to Solid-State Chemistry), spoke at the Engineering@MIT event during Campus Preview Weekend. He introduced prospective MIT first-years to materials science and engineering and emphasized the importance of hands-on learning.
Faculty and lecturers across the School of Engineering showcased their majors, with Dean Paula Hammond also speaking about the school more broadly.
📸 Jason Sparapani
Kirk Kolenbrander, DMSE lecturer and instructor for 3.091 (Introduction to Solid-State Chemistry), spoke at the Engineering@MIT event during Campus Preview Weekend. He introduced prospective MIT first-years to materials science and engineering and emphasized the importance of hands-on learning.
Faculty and lecturers across the School of Engineering showcased their majors, with Dean Paula Hammond also speaking about the school more broadly.
📸 Jason Sparapani
Kirk Kolenbrander, DMSE lecturer and instructor for 3.091 (Introduction to Solid-State Chemistry), spoke at the Engineering@MIT event during Campus Preview Weekend. He introduced prospective MIT first-years to materials science and engineering and emphasized the importance of hands-on learning.
Faculty and lecturers across the School of Engineering showcased their majors, with Dean Paula Hammond also speaking about the school more broadly.
📸 Jason Sparapani
Kirk Kolenbrander, DMSE lecturer and instructor for 3.091 (Introduction to Solid-State Chemistry), spoke at the Engineering@MIT event during Campus Preview Weekend. He introduced prospective MIT first-years to materials science and engineering and emphasized the importance of hands-on learning.
Faculty and lecturers across the School of Engineering showcased their majors, with Dean Paula Hammond also speaking about the school more broadly.
📸 Jason Sparapani
Kirk Kolenbrander, DMSE lecturer and instructor for 3.091 (Introduction to Solid-State Chemistry), spoke at the Engineering@MIT event during Campus Preview Weekend. He introduced prospective MIT first-years to materials science and engineering and emphasized the importance of hands-on learning.
Faculty and lecturers across the School of Engineering showcased their majors, with Dean Paula Hammond also speaking about the school more broadly.
📸 Jason Sparapani
At the CPW Expo on April 17, DMSE faculty, staff, and students met prospective @MIT first-years and introduced materials science and engineering as a field of study and career path.
📸 Jason Sparapani
At the CPW Expo on April 17, DMSE faculty, staff, and students met prospective @MIT first-years and introduced materials science and engineering as a field of study and career path.
📸 Jason Sparapani
At the CPW Expo on April 17, DMSE faculty, staff, and students met prospective @MIT first-years and introduced materials science and engineering as a field of study and career path.
📸 Jason Sparapani
At the CPW Expo on April 17, DMSE faculty, staff, and students met prospective @MIT first-years and introduced materials science and engineering as a field of study and career path.
📸 Jason Sparapani
At the CPW Expo on April 17, DMSE faculty, staff, and students met prospective @MIT first-years and introduced materials science and engineering as a field of study and career path.
📸 Jason Sparapani
At the CPW Expo on April 17, DMSE faculty, staff, and students met prospective @MIT first-years and introduced materials science and engineering as a field of study and career path.
📸 Jason Sparapani
At the CPW Expo on April 17, DMSE faculty, staff, and students met prospective @MIT first-years and introduced materials science and engineering as a field of study and career path.
📸 Jason Sparapani
At the CPW Expo on April 17, DMSE faculty, staff, and students met prospective @MIT first-years and introduced materials science and engineering as a field of study and career path.
📸 Jason Sparapani
At the CPW Expo on April 17, DMSE faculty, staff, and students met prospective @MIT first-years and introduced materials science and engineering as a field of study and career path.
📸 Jason Sparapani
At the CPW Expo on April 17, DMSE faculty, staff, and students met prospective @MIT first-years and introduced materials science and engineering as a field of study and career path.
📸 Jason Sparapani
At the CPW Expo on April 17, DMSE faculty, staff, and students met prospective @MIT first-years and introduced materials science and engineering as a field of study and career path.
📸 Jason Sparapani
At the CPW Expo on April 17, DMSE faculty, staff, and students met prospective @MIT first-years and introduced materials science and engineering as a field of study and career path.
📸 Jason Sparapani
At the CPW Expo on April 17, DMSE faculty, staff, and students met prospective @MIT first-years and introduced materials science and engineering as a field of study and career path.
📸 Jason Sparapani
At the CPW Expo on April 17, DMSE faculty, staff, and students met prospective @MIT first-years and introduced materials science and engineering as a field of study and career path.
📸 Jason Sparapani
At the CPW Expo on April 17, DMSE faculty, staff, and students met prospective @MIT first-years and introduced materials science and engineering as a field of study and career path.
📸 Jason Sparapani
At the CPW Expo on April 17, DMSE faculty, staff, and students met prospective @MIT first-years and introduced materials science and engineering as a field of study and career path.
📸 Jason Sparapani
At the CPW Expo on April 17, DMSE faculty, staff, and students met prospective @MIT first-years and introduced materials science and engineering as a field of study and career path.
📸 Jason Sparapani
At the CPW Expo on April 17, DMSE faculty, staff, and students met prospective @MIT first-years and introduced materials science and engineering as a field of study and career path.
📸 Jason Sparapani
At the CPW Expo on April 17, DMSE faculty, staff, and students met prospective @MIT first-years and introduced materials science and engineering as a field of study and career path.
📸 Jason Sparapani
At the CPW Expo on April 17, DMSE faculty, staff, and students met prospective @MIT first-years and introduced materials science and engineering as a field of study and career path.
📸 Jason Sparapani
Students in Frances Ross’s 3.001 (Science and Engineering of Materials) put a recent lesson on cement into practice Tuesday in the Merton C. Flemings Materials Processing Laboratory (the forge and foundry), mixing and pouring it into molds to harden into various forms.
📸 Jason Sparapani
Students in Frances Ross’s 3.001 (Science and Engineering of Materials) put a recent lesson on cement into practice Tuesday in the Merton C. Flemings Materials Processing Laboratory (the forge and foundry), mixing and pouring it into molds to harden into various forms.
📸 Jason Sparapani
Students in Frances Ross’s 3.001 (Science and Engineering of Materials) put a recent lesson on cement into practice Tuesday in the Merton C. Flemings Materials Processing Laboratory (the forge and foundry), mixing and pouring it into molds to harden into various forms.
📸 Jason Sparapani
Students in Frances Ross’s 3.001 (Science and Engineering of Materials) put a recent lesson on cement into practice Tuesday in the Merton C. Flemings Materials Processing Laboratory (the forge and foundry), mixing and pouring it into molds to harden into various forms.
📸 Jason Sparapani
Students in Frances Ross’s 3.001 (Science and Engineering of Materials) put a recent lesson on cement into practice Tuesday in the Merton C. Flemings Materials Processing Laboratory (the forge and foundry), mixing and pouring it into molds to harden into various forms.
📸 Jason Sparapani
Students in Frances Ross’s 3.001 (Science and Engineering of Materials) put a recent lesson on cement into practice Tuesday in the Merton C. Flemings Materials Processing Laboratory (the forge and foundry), mixing and pouring it into molds to harden into various forms.
📸 Jason Sparapani
Students in Frances Ross’s 3.001 (Science and Engineering of Materials) put a recent lesson on cement into practice Tuesday in the Merton C. Flemings Materials Processing Laboratory (the forge and foundry), mixing and pouring it into molds to harden into various forms.
📸 Jason Sparapani
Students in Frances Ross’s 3.001 (Science and Engineering of Materials) put a recent lesson on cement into practice Tuesday in the Merton C. Flemings Materials Processing Laboratory (the forge and foundry), mixing and pouring it into molds to harden into various forms.
📸 Jason Sparapani
Students in Frances Ross’s 3.001 (Science and Engineering of Materials) put a recent lesson on cement into practice Tuesday in the Merton C. Flemings Materials Processing Laboratory (the forge and foundry), mixing and pouring it into molds to harden into various forms.
📸 Jason Sparapani
Students in Frances Ross’s 3.001 (Science and Engineering of Materials) put a recent lesson on cement into practice Tuesday in the Merton C. Flemings Materials Processing Laboratory (the forge and foundry), mixing and pouring it into molds to harden into various forms.
📸 Jason Sparapani
Students in Frances Ross’s 3.001 (Science and Engineering of Materials) put a recent lesson on cement into practice Tuesday in the Merton C. Flemings Materials Processing Laboratory (the forge and foundry), mixing and pouring it into molds to harden into various forms.
📸 Jason Sparapani
Students in Frances Ross’s 3.001 (Science and Engineering of Materials) put a recent lesson on cement into practice Tuesday in the Merton C. Flemings Materials Processing Laboratory (the forge and foundry), mixing and pouring it into molds to harden into various forms.
📸 Jason Sparapani
Students in Frances Ross’s 3.001 (Science and Engineering of Materials) put a recent lesson on cement into practice Tuesday in the Merton C. Flemings Materials Processing Laboratory (the forge and foundry), mixing and pouring it into molds to harden into various forms.
📸 Jason Sparapani
Students in Frances Ross’s 3.001 (Science and Engineering of Materials) put a recent lesson on cement into practice Tuesday in the Merton C. Flemings Materials Processing Laboratory (the forge and foundry), mixing and pouring it into molds to harden into various forms.
📸 Jason Sparapani
Another strong year for materials at @MIT.
U.S. News and World Report has again ranked MIT’s graduate engineering program first in the nation, with materials engineering among six top-placed disciplines. The Institute has held the No. 1 spot since 1990, when the magazine first ranked such programs.
QS World University Rankings has also placed MIT in the No. 1 spot in 12 subject areas for 2026, including materials science. MIT has been ranked as the world's top university by QS for 14 straight years.
Read more at the News & Highlights link in our bio
📸 Gretchen Ertl
Another strong year for materials at @MIT.
U.S. News and World Report has again ranked MIT’s graduate engineering program first in the nation, with materials engineering among six top-placed disciplines. The Institute has held the No. 1 spot since 1990, when the magazine first ranked such programs.
QS World University Rankings has also placed MIT in the No. 1 spot in 12 subject areas for 2026, including materials science. MIT has been ranked as the world's top university by QS for 14 straight years.
Read more at the News & Highlights link in our bio
📸 Gretchen Ertl
DMSE’s Shaymus Hudson, with @mtarkanian and @rheavedro, pours molten bronze into molds in the Merton C. Flemings Materials Processing Laboratory—the forge and foundry.
Wax carvings of MIT seals are baked out first, and the bronze fills the empty molds, forming medallions for every DMSE graduate at Commencement.
DMSE’s Shaymus Hudson, with @mtarkanian and @rheavedro, pours molten bronze into molds in the Merton C. Flemings Materials Processing Laboratory—the forge and foundry.
Wax carvings of MIT seals are baked out first, and the bronze fills the empty molds, forming medallions for every DMSE graduate at Commencement.
DMSE’s Shaymus Hudson, with @mtarkanian and @rheavedro, pours molten bronze into molds in the Merton C. Flemings Materials Processing Laboratory—the forge and foundry.
Wax carvings of MIT seals are baked out first, and the bronze fills the empty molds, forming medallions for every DMSE graduate at Commencement.
DMSE’s Shaymus Hudson, with @mtarkanian and @rheavedro, pours molten bronze into molds in the Merton C. Flemings Materials Processing Laboratory—the forge and foundry.
Wax carvings of MIT seals are baked out first, and the bronze fills the empty molds, forming medallions for every DMSE graduate at Commencement.
DMSE’s Shaymus Hudson, with @mtarkanian and @rheavedro, pours molten bronze into molds in the Merton C. Flemings Materials Processing Laboratory—the forge and foundry.
Wax carvings of MIT seals are baked out first, and the bronze fills the empty molds, forming medallions for every DMSE graduate at Commencement.
DMSE’s Shaymus Hudson, with @mtarkanian and @rheavedro, pours molten bronze into molds in the Merton C. Flemings Materials Processing Laboratory—the forge and foundry.
Wax carvings of MIT seals are baked out first, and the bronze fills the empty molds, forming medallions for every DMSE graduate at Commencement.
DMSE’s Shaymus Hudson, with @mtarkanian and @rheavedro, pours molten bronze into molds in the Merton C. Flemings Materials Processing Laboratory—the forge and foundry.
Wax carvings of MIT seals are baked out first, and the bronze fills the empty molds, forming medallions for every DMSE graduate at Commencement.
DMSE’s Shaymus Hudson, with @mtarkanian and @rheavedro, pours molten bronze into molds in the Merton C. Flemings Materials Processing Laboratory—the forge and foundry.
Wax carvings of MIT seals are baked out first, and the bronze fills the empty molds, forming medallions for every DMSE graduate at Commencement.
DMSE’s Shaymus Hudson, with @mtarkanian and @rheavedro, pours molten bronze into molds in the Merton C. Flemings Materials Processing Laboratory—the forge and foundry.
Wax carvings of MIT seals are baked out first, and the bronze fills the empty molds, forming medallions for every DMSE graduate at Commencement.
DMSE’s Shaymus Hudson, with @mtarkanian and @rheavedro, pours molten bronze into molds in the Merton C. Flemings Materials Processing Laboratory—the forge and foundry.
Wax carvings of MIT seals are baked out first, and the bronze fills the empty molds, forming medallions for every DMSE graduate at Commencement.
DMSE’s Shaymus Hudson, with @mtarkanian and @rheavedro, pours molten bronze into molds in the Merton C. Flemings Materials Processing Laboratory—the forge and foundry.
Wax carvings of MIT seals are baked out first, and the bronze fills the empty molds, forming medallions for every DMSE graduate at Commencement.
DMSE’s Shaymus Hudson, with @mtarkanian and @rheavedro, pours molten bronze into molds in the Merton C. Flemings Materials Processing Laboratory—the forge and foundry.
Wax carvings of MIT seals are baked out first, and the bronze fills the empty molds, forming medallions for every DMSE graduate at Commencement.
DMSE’s Shaymus Hudson, with @mtarkanian and @rheavedro, pours molten bronze into molds in the Merton C. Flemings Materials Processing Laboratory—the forge and foundry.
Wax carvings of MIT seals are baked out first, and the bronze fills the empty molds, forming medallions for every DMSE graduate at Commencement.
DMSE’s Shaymus Hudson, with @mtarkanian and @rheavedro, pours molten bronze into molds in the Merton C. Flemings Materials Processing Laboratory—the forge and foundry.
Wax carvings of MIT seals are baked out first, and the bronze fills the empty molds, forming medallions for every DMSE graduate at Commencement.
DMSE’s Shaymus Hudson, with @mtarkanian and @rheavedro, pours molten bronze into molds in the Merton C. Flemings Materials Processing Laboratory—the forge and foundry.
Wax carvings of MIT seals are baked out first, and the bronze fills the empty molds, forming medallions for every DMSE graduate at Commencement.
DMSE alum Ye Ji Kim PhD ’25 has been named a 2026 Schmidt Science Fellow.
She will develop noninvasive tools to monitor and control neural circuits in the gut-brain axis, exploring new ways to treat psychiatric, neurological, and metabolic conditions without surgery or implants.
DMSE graduate students presented their research in a February 27 poster session during the department’s Visit Day event for prospective students.
Twenty-six accepted applicants visited @MIT for faculty presentations, lab tours, and social events.
📸 Jason Sparapani
DMSE graduate students presented their research in a February 27 poster session during the department’s Visit Day event for prospective students.
Twenty-six accepted applicants visited @MIT for faculty presentations, lab tours, and social events.
📸 Jason Sparapani
DMSE graduate students presented their research in a February 27 poster session during the department’s Visit Day event for prospective students.
Twenty-six accepted applicants visited @MIT for faculty presentations, lab tours, and social events.
📸 Jason Sparapani
DMSE graduate students presented their research in a February 27 poster session during the department’s Visit Day event for prospective students.
Twenty-six accepted applicants visited @MIT for faculty presentations, lab tours, and social events.
📸 Jason Sparapani
DMSE graduate students presented their research in a February 27 poster session during the department’s Visit Day event for prospective students.
Twenty-six accepted applicants visited @MIT for faculty presentations, lab tours, and social events.
📸 Jason Sparapani
DMSE graduate students presented their research in a February 27 poster session during the department’s Visit Day event for prospective students.
Twenty-six accepted applicants visited @MIT for faculty presentations, lab tours, and social events.
📸 Jason Sparapani
DMSE graduate students presented their research in a February 27 poster session during the department’s Visit Day event for prospective students.
Twenty-six accepted applicants visited @MIT for faculty presentations, lab tours, and social events.
📸 Jason Sparapani
DMSE graduate students presented their research in a February 27 poster session during the department’s Visit Day event for prospective students.
Twenty-six accepted applicants visited @MIT for faculty presentations, lab tours, and social events.
📸 Jason Sparapani
DMSE graduate students presented their research in a February 27 poster session during the department’s Visit Day event for prospective students.
Twenty-six accepted applicants visited @MIT for faculty presentations, lab tours, and social events.
📸 Jason Sparapani
Veja Stories do Instagram Secretamente
O Visualizador de Stories do Instagram é uma ferramenta fácil que permite assistir e salvar stories, vídeos, fotos ou IGTV do Instagram secretamente. Com este serviço, você pode baixar conteúdos e apreciá-los offline sempre que quiser. Se você encontrar algo interessante no Instagram que gostaria de ver mais tarde ou quiser visualizar stories de forma anônima, nosso Visualizador é perfeito para você. Anonstories oferece uma excelente solução para manter sua identidade oculta. O Instagram lançou a funcionalidade de Stories em agosto de 2023, que logo foi adotada por outras plataformas devido ao seu formato dinâmico e sensível ao tempo. Os Stories permitem que os usuários compartilhem atualizações rápidas, sejam fotos, vídeos ou selfies, com textos, emojis ou filtros, e ficam visíveis por apenas 24 horas. Esse limite de tempo cria maior engajamento em comparação com posts comuns. Nos dias de hoje, os Stories são uma das formas mais populares de se conectar e comunicar nas redes sociais. No entanto, quando você visualiza um Story, o criador pode ver seu nome na lista de visualizadores, o que pode ser uma preocupação com a privacidade. E se você quiser navegar pelos Stories sem ser notado? É aí que o Anonstories se torna útil. Ele permite que você assista a conteúdos públicos do Instagram sem revelar sua identidade. Basta digitar o nome de usuário do perfil que você está curioso, e a ferramenta mostrará seus Stories mais recentes. Funcionalidades do Visualizador Anonstories: - Navegação Anônima: Veja Stories sem aparecer na lista de visualizadores. - Sem Conta Necessária: Veja conteúdos públicos sem se cadastrar no Instagram. - Download de Conteúdos: Salve qualquer conteúdo de Stories diretamente no seu dispositivo para uso offline. - Veja Destaques: Acesse os Destaques do Instagram, até mesmo após o prazo de 24 horas. - Monitoramento de Reposts: Acompanhe os reposts ou o nível de engajamento em Stories de perfis pessoais. Limitações: - Esta ferramenta funciona apenas com contas públicas; contas privadas permanecem inacessíveis. Benefícios: - Amigável à Privacidade: Veja qualquer conteúdo do Instagram sem ser notado. - Simples e Fácil: Não há necessidade de instalação de aplicativo ou registro. - Ferramentas Exclusivas: Baixe e gerencie conteúdos de maneiras que o Instagram não oferece.
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