MIT Open Learning Research Scientist Andrés Felipe Salazar Gómez, working with Alexandre Armengol Urpi, a postdoctoral associate in the MIT Department of Mechanical Engineering (MechE), studied ways to capture the implicit knowledge of MIT Glass Lab glassblowers for their J-WEL grant project. This video demonstrates how the team captured implicit knowledge of expert glassblowers using sensors and cameras to track eye movement. Through its Education Innovation Grants, the Jameel World Education Lab aspires to develop the building blocks, ideas, and connections that power global transformation in learning. Read more about the project: https://bit.ly/4bd0YAC #Teaching #Learning #Innovation #Glassblowing
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J.A. Woollam, we are very happy to have served as host for this great seminar, and honored to be partnered with such a well-respected leader in analytical instrumentation. Hope we can do it again before too long. #covalentmetrology #materialsscience
The Spectroscopic Ellipsometry Seminar and CompleteEASE Short Course, taking place from March 11-14th, 2024, in Sunnyvale, CA, is currently in progress and we're proud to partner with Covalent Metrology. Here's an inside look at the ongoing seminar: Attendees are deeply immersing themselves in cutting-edge data analysis techniques, essential for advancing in the field. The seminar atmosphere is vibrant, characterized by interactive, hands-on sessions that provide guided examples, significantly enhancing the learning experience. Additionally, the event is an awesome opportunity for networking, enabling participants to engage with fellow researchers and industry experts, thereby forging valuable connections. The short course unfolds over the next three days, each packed with specialized topics. Here’s the breakdown: ✅ Day 1: We delve into the essentials of spectroscopic ellipsometry, covering Transparent Layers, Cauchy Dispersion, Thickness PreFit, Global Fit, Roughness, Index Grading, Absorbing Films, and the B-Spline approach. ✅ Day 2: Explores more complex aspects such as Semi-Absorbing Films, Transparent B-Spline conversion, Wavelength Expansion Fits, Gen-Osc, and Oscillator Model Theory. ✅ Day 3: Dedicated to Thin Absorbing Materials, integrating SE and Transmission data, Interference Enhancement, Multiple-Sample Analysis, and Mapping Data, concluding with a comprehensive review. This in-person gathering offers a systematic educational experience, highlighting essential techniques and methodologies in spectroscopic ellipsometry. We are excited about the collaborative dynamics between Woollam Applications Engineers and Covalent Metrology, aimed at pushing the boundaries of materials science. For further details and to view the seminar program, please visit our event page: https://lnkd.in/gPsCuYE8. 🔎Although this course is at max capacity and underway, be sure to stay tuned for further updates and insights on our future courses and events! #jawoollam #spectroscopicellipsometry #jawcourses #EllipsometryExcellence #WoollamLearning #CovalentCollaboration
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🌟 Experience Real Lab Procedures Virtually with Beyond Labz! 🌟 🔬 Dive into the Thomson Cathode Ray Tube Experiment and discover the fascinating world of electrons just like J.J. Thomson did at Cambridge University in 1897. This open-ended lab activity allows students to explore and learn by doing, just as in a real lab. 👩🔬 Key Highlights: Measure the charge-to-mass ratio (q/me) for electrons. Adjust magnetic and electric fields to observe changes. Calculate and compare your results to the modern accepted value. 💡 Why Choose Beyond Labz? Realistic lab simulations. Hands-on learning experience. Save your progress and continue anytime. Beyond Labz: Elevating Science Courses with Seamless Digital Labs https://hubs.ly/Q02xnct10 #ScienceEducation #VirtualLabs #Chemistry #STEM #BeyondLabz
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The Spectroscopic Ellipsometry Seminar and CompleteEASE Short Course, taking place from March 11-14th, 2024, in Sunnyvale, CA, is currently in progress and we're proud to partner with Covalent Metrology. Here's an inside look at the ongoing seminar: Attendees are deeply immersing themselves in cutting-edge data analysis techniques, essential for advancing in the field. The seminar atmosphere is vibrant, characterized by interactive, hands-on sessions that provide guided examples, significantly enhancing the learning experience. Additionally, the event is an awesome opportunity for networking, enabling participants to engage with fellow researchers and industry experts, thereby forging valuable connections. The short course unfolds over the next three days, each packed with specialized topics. Here’s the breakdown: ✅ Day 1: We delve into the essentials of spectroscopic ellipsometry, covering Transparent Layers, Cauchy Dispersion, Thickness PreFit, Global Fit, Roughness, Index Grading, Absorbing Films, and the B-Spline approach. ✅ Day 2: Explores more complex aspects such as Semi-Absorbing Films, Transparent B-Spline conversion, Wavelength Expansion Fits, Gen-Osc, and Oscillator Model Theory. ✅ Day 3: Dedicated to Thin Absorbing Materials, integrating SE and Transmission data, Interference Enhancement, Multiple-Sample Analysis, and Mapping Data, concluding with a comprehensive review. This in-person gathering offers a systematic educational experience, highlighting essential techniques and methodologies in spectroscopic ellipsometry. We are excited about the collaborative dynamics between Woollam Applications Engineers and Covalent Metrology, aimed at pushing the boundaries of materials science. For further details and to view the seminar program, please visit our event page: https://lnkd.in/gPsCuYE8. 🔎Although this course is at max capacity and underway, be sure to stay tuned for further updates and insights on our future courses and events! #jawoollam #spectroscopicellipsometry #jawcourses #EllipsometryExcellence #WoollamLearning #CovalentCollaboration
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😊 My name is Moritz Hollenberg. I am a mathematician working on project A02 "Quantitative real-time 3D electrical impedance tomography of multiphase reactors". 🚀 My focus in the Institute for Mechatronics in Mechanics at the Hamburg University of Technology is on advancing data processing and the reconstruction of process quantities. 💡The vision behind SMART reactors driving a sustainable future sparked my interest in process engineering. I wanted to apply my mathematical skills in a meaningful way, learn engineering, and benefit from interdisciplinary collaborations. 🌍 I want to change the world by substituting fossil resources with renewables using SMART reactors. 🤝 If I were to describe the CRC in three words they would be: 🔹collaborative, 🔹challenging, and 🔹disruptive. #SMARTreactors #TUHH #Technischistdasmöglich #TUHamburg #engineeringtofaceclimatechange #ImpedanceTomography #RealTimeImaging #SignalProcessing
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Associate Professor-Department of Mechanical Engineering; Adjunct Professor-School of Computing@ The University of Utah
Check out our recent collaborative work with Michela Taufer Valerio Pascucci Brendan Croom Rahul Reddy Kancharla Giorgio Scorzelli Robert wheeler, Naweiluo Zou: Orchestration of materials science workflows for heterogeneous resources at large scale: https://lnkd.in/gJ98d8VX University of Utah University of Utah Dept. of Mechanical Engineering Kahlert School of Computing, University of Utah #materialsscience #computerscience #visualization University of Tennessee, Knoxville #porousmedia #porous #scientificcomputing
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Here’s a quick preview of just one of the new tools from the upcoming Lumitools 2.0 software that I’ve been developing during my time visiting Oxford University. This particular tool provides an efficient and effective solution for cleaning up luminescence images, preparing them for in-depth analysis or publication. It supports a wide variety of input image formats and offers multiple export options. You can choose formats that preserve pixel data accuracy for precise analysis and/or opt for color-mapped formats for impactful presentations and publications. Previews of more tools coming soon! Department of Materials, University of Oxford Macquarie University Engineering
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📢 #specialissue #CallforPapers CMES-Computer Modeling in Engineering & Sciences new special issue “Recent Advances on Smart MEE Composites: Testing, Modeling and Simulation” is open for submission now. 👨🎓 Guest Editors Prof. Ernian Pan, National Yang Ming Chiao Tung University, Taiwan Prof. Chao Zhang, Northwestern Polytechnical University, China Prof. Hsin-Yi Kuo, National Yang Ming Chiao Tung University, Taiwan 📚This special issue aims at collecting the latest developments and new insights in experimental and numerical modeling of smart MEE composites. 👉 Submit your work and be a part of this dynamic special issue. Learn more: https://lnkd.in/gw44dt_i #magnetoelectroelastic (#MEE) #simulation #numericalmethod #experimentalcharacterization #structuralanalysis #crack #interface #application #CMES
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Founder | Proficient in Autodesk Fusion 360, SOLIDWORKS, CATIA and Autodesk Inventor | Mechanical Engineer
In today's world, nanotechnology plays a significant role in mankind. Many companies such as Nanografi Türkiye contribute the nanotechnology era for better and sustainable lives. #nanotechnology #nanomaterials #science #sustainable
Together with Andre Geim, Konstantin Novoselov first produced the material graphene in 2004. It was one of their 'Friday night experiments', a time when they would explore things they didn't have time to work on during their research projects. They then had access to the lab but the freedom to experiment and explore areas others might find a bit strange. One of these Fridays they started experimenting with graphite and sticky tape and managed to create the new material graphene. After successfully producing graphene, Novoselov and Geim mapped its properties: incredibly thin but still incredibly strong, good heat and electrical conductivity, almost entirely transparent yet very dense. Graphene has created new possibilities within materials technology and electronics. Learn more: https://bit.ly/2CkKkVr
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I love this story because it's about pure exploration. When I went to grad school in the 1980s there were people that were routinely cleaving graphite with Scotch tape, for the purpose of making clean graphite pieces to study the intercalation of various metals into graphite under high pressure trying to make two-dimensional conductors. I wonder how many people in that research group. wondered why the graphite Scotch tape started changing colors as it got thinner and thinner but nobody ever measured its properties. Oh well that's what happens sometimes in science. I think it's really important. the part of research is time for play high level play. Play with the instrument and understand its limits. not just have a plan in go through the routine of racking up a set of measurements with a goal. Its through play that one can develop flow to better understand how to make the experiment or the project more efficient and realize that sometimes the routine may not result in a breakthrough.
Together with Andre Geim, Konstantin Novoselov first produced the material graphene in 2004. It was one of their 'Friday night experiments', a time when they would explore things they didn't have time to work on during their research projects. They then had access to the lab but the freedom to experiment and explore areas others might find a bit strange. One of these Fridays they started experimenting with graphite and sticky tape and managed to create the new material graphene. After successfully producing graphene, Novoselov and Geim mapped its properties: incredibly thin but still incredibly strong, good heat and electrical conductivity, almost entirely transparent yet very dense. Graphene has created new possibilities within materials technology and electronics. Learn more: https://bit.ly/2CkKkVr
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Having the opportunity to explore beyond the framework of your main research project can lead to truly amazing discoveries.
Together with Andre Geim, Konstantin Novoselov first produced the material graphene in 2004. It was one of their 'Friday night experiments', a time when they would explore things they didn't have time to work on during their research projects. They then had access to the lab but the freedom to experiment and explore areas others might find a bit strange. One of these Fridays they started experimenting with graphite and sticky tape and managed to create the new material graphene. After successfully producing graphene, Novoselov and Geim mapped its properties: incredibly thin but still incredibly strong, good heat and electrical conductivity, almost entirely transparent yet very dense. Graphene has created new possibilities within materials technology and electronics. Learn more: https://bit.ly/2CkKkVr
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