DescriptionAll members of the MIT community are invited to participate in GET NOTICED! – a dynamic two-day design challenge that showcases your creativity, sets new trends in biking and riding apparel, and reflects the uniqueness of MIT. Most importantly, this challenge aims to help Personal Wheels (PW) riders GET NOTICED for improved safety and visibility on the streets of Cambridge.We’re calling on innovative minds to conceptualize a unique article of clothing or a wearable/mountable device that is:Easy to put on and take offEye-catching and highly desirable for PW ridersAffordable to produceDesigned to significantly enhance visibility for ridersWe’re thrilled to collaborate with Ehmke Manufacturing Company, a leading designer and producer of innovative technical fabric products for defense, aerospace, and industrial markets, to bring your ideas to life.Event DetailsDay One – January 15Overview of the design challenge criteriaPresentation on PW safety initiatives at MITMeet-and-greet with our collaborators at Ehmke Manufacturing CompanyCollaborative workshops with expert speakers to refine your designs, explore materials, and discuss efficient, cost-effective manufacturing processesDay Two – January 27Presentation of designs to a jury of professionals and MIT community membersSelection of a winning conceptOpportunity for the individual or team with the selected design to collaborate with Ehmke Manufacturing Company to refine and prototype their designIf successful, your design could be produced and distributed to PW riders across the MIT campus, enhancing both safety and style.Join us to set a new standard for visibility and creativity!Attendance: Participants must attend both sessionsHosted by: The Personal Wheels Safety Committee in collaboration with Ehmke Manufacturing CompanyDates: Jan 15th and 27thTime: 1pm - 3pm ESTLocation: NW23

Have you ever wondered…· How do space science missions get their start?· What funding is available for space instruments and experiments and how do I tap into it?· What’s a review panel anyway and what are they looking for from a proposal?Then join our course to learn what it takes to write successful NASA proposals! Over the course of three sessions we will learn about:· The NASA funding landscape· How to read funding solicitations· How to develop compelling concepts and write winning proposals, and· What to expect (and do!) after you’re awarded.This course will culminate in students developing their own concepts for a real solicitation (individually or in teams) and writing a draft 3-page proposal that will be reviewed in a mock panel. This course is open to all members of the MIT community and is not for credit.Registration is required for this course. Please register using the following link and feel free to reach out to LParit@mit.edu with any questions: https://docs.google.com/forms/d/e/1FAIpQLSc09JvZC8ctQiZkW_2xfXH1qq7di7MTUzHBetDCv7Tr1YY8oQ/viewform?usp=sf_link

Dear MIT students from every course/major, undergraduate and graduate,For the second year in a row, we are offering this three-unit, for-credit class led by instructors Prof. Olivier de Weck and Prof. Luca Carlone from the Department of Aeronautics and Astronautics (AeroAstro). You can view the syllabus here.In this experimental, three-week class, students will learn about the fundamentals of aerospace engineering through extended (virtual) reality. No prior experience necessary!Students who complete this class will enter a raffle to win one of two Meta Quest 3S headsets!If you are interested in this course, please fill out the following short, pre-registration survey (4-5mins), so we can tailor our instruction to this year's students. The survey also contains more information about the class, including the lecture dates: https://forms.gle/rYJs3ukn519Zc4Yt7.

Advance sign-up required by 1/15/2025Sites are often represented as static, empty plots of land. In reality, every site is an environment—an interconnected system shaped by ecological, cultural, and material relationships. These environments extend vertically into the sky, horizontally through soil and ecosystems, and inward to unseen processes such as microorganisms and material histories. How can experimental drawing and representation techniques reveal these complexities and reshape the way we design?This workshop invites participants to reimagine sites as living systems and engage in collaborative design practices. Focusing on a local, seemingly vacant lot, we will investigate the site’s temporal and spatial dynamics—tracing its layers of interaction and exploring how elements and materials influence its identity. By reframing traditional notions of scale and boundaries, we will uncover the opportunities of co-authorship amongst the environments, forces and creatures.The Wiesner Gallery will act as a hub for both a workshop and exhibition space. Each day, participants will gather in the gallery to experiment with prototypes, drawings, and multimedia techniques. Collaboration and play will guide the approach, creating an open and exploratory environment where games facilitate dialogue and negotiation. This collective exploration will reveal the site’s interconnected urban and architectural layers from the perspectives of diverse actors. The workshop will culminate in a public exhibition at the end of January, showcasing our collective discoveries.The workshop will take place daily at the Wiesner Gallery at MIT. It will culminate in an exhibition, likely Jan-31-Feb 2. Students should bring their laptops to all sessions.

These are trainings in basic laboratory skills and techniques for mammalian cell culture, transfection, and optical anaysis of mammalian cells. These modules are Level 1 and Level 2 trainings, prior experience required. (See Basic Lab Skills)The Credential Certification program in the Huang-Hobbs BioMaker Space offers participants an opportunity to learn, practice, and demonstrate proficiency in a wide range of biological laboratory techniques. Upon successful completion of the assessment, particpants are awarded a certificate of completion for the credential.Credential modules are open to all users in the MIT community who have completed the required pre-requisite trainings. All particiants must be added to the "biomakerspace" training group and complete clearance form and online trainings. Email jbuck@mit.edu to be added to the training group and for additional information about this program. Limited to 12 participants. To register, please visit http://tinyurl.com/HHBMS-IAP2025.In this series of trainings, participants will review the theory and practice of following credential modules:1) Mammalian Cell Culture - Inoculation (Tuesday 1/21) 2) Mammalian Cell Culture - Media Changing & Inverted Microscope Use (Wednesday 1/22) 3) Mammalian Cell Culture - Passaging & Cell Counting (Thursday 1/23) 4) Mammalian Cell Culture - Media Changing (Friday 1/24) 5) Mammalian Transfection - Seeding Plates (Monday 1/27) 6) Mammalian Transfection - Transfection (Tueday 1/28) 7) Fluorescent Microscopy (Wednesday 1/29) 8) Fluorescent Activated Cell Sorting (FACS) (Thursday 1/30) 9) Fluorescent Microscopy, FACS & Conclusions (Friday 1/31)Pre-Requisite Trainings: Basic Laboratory Skills Modules: 1) Huang-Hobbs BioMaker Space Lab Specific Training 2) Laboratory Math and Making Solutions 3) Basic Micropipette Use 4) Microbiological Culture and Sterile Technique

In this talk, University of Illinois Urbana-Champaign's Cecilia Leal will present findings on how lipid droplets undergo structural remodeling, close-packing rigid and highly saturated triacylglycerols in response to caloric overload. This adaptation allows for optimal fat expansion during the initial stages of obesity.