close menu
Internal Resources Close Menu

  • About Who we are

    See About Menu
  • Impact World-Changing Engineering

    See Impact Menu
  • Research Focus Areas and Labs

    See Research Menu
  • People Faculty and Staff

    See People Submenu
  • Education Degree Programs and Classes

    See Education Menu
  • News & Video News, Press, Video and Photos

    See news and media menu

Apply to MIT MechE

Back Close Menu
About
  • History
  • Diversity Equity & Inclusion
  • Ethics and Integrity
  • Strategic Plan (PDF)
  • Faculty Openings
  • Alumni
  • MechE Alliance
  • Support MechE
  • Contact Us
Impact
  • Health
  • Environment
  • Innovation
  • Energy
  • Security
Research
  • Mechanics
  • Design
  • Controls
  • Energy
  • Ocean
  • Bio
  • Micro + Nano
People
  • Diversity, Equity, and Inclusion
  • Faculty
  • Faculty Emeritus
  • Research Staff
  • Post Docs
  • Teaching Staff
  • Admin Staff
  • Support Staff
  • Full Directory
Education
  • Class Offerings
  • Prospective Students
  • Undergraduate
  • Graduate
  • Post-Doc
  • Careers
Culture

News + Video
  • Press
  • Video Galleries
  • Photo Galleries
  • Newsletter
  • Colloquia
••• Lorem ipsum dolor sit amet. Lorem ipsum.Close Alert
MIT MechE
MechE Covid-19 Resources
  • Home
  • News + Video
  • Nature Sand
  • menu

    The Nature of Sand

    Media Type: 
    Video
    Featured?: 
    Masonry: 
    Teaser Image: 
    Teaser Headline: 
    The Nature of Sand
    Poster Image: 
    Video Embed Code: 
    https://youtu.be/8xAfzz1HT8s
    Full Description: 

    Associate Professor Ken Kamrin’s model of granular material flow could impact how we interact with everything from sand and soil to pills and industrial materials.

    Research Area: 
    Mechanics
    Impact Areas: 
    Innovation
    Environment
    Display On: 
    Impact Home
    Research Home
    Post-Doc
    Video URL: 
    https://youtu.be/8xAfzz1HT8s
    Sub-head: 
    Associate Professor Ken Kamrin’s model of granular material flow could impact how we interact with everything from sand and soil to pills and industrial materials.
    News and Media Block Teaser: 
    Associate Professor Ken Kamrin’s model of granular material flow could impact how we interact with everything from sand and soil to pills and industrial materials.
    • at MechE
    • Diversity Statement
    • Faculty Positions
    • Contact
    • Apply
    • Sitemap
    • Privacy
    • Accessibility
    • Credits
    • Toggle High Contrast
    • Student Resources
    • MechE Academic Dashboard
    • MechE Undergrad Portal
    • Online 2A Contract
    • SB Thesis Information
    • Grad Student Resources
    • Online Grad Card
    • ODGE Petition
    • On-Line Thesis Submission
    • Zoom Instructions for Virtual Defenses
    • Guide to Graduate Study
    • MIT's Mind & Hand Book
    • Staff Resources
    • Room Reservations
    • MechE Resources
    • Edit My Profile

    Follow our research.
    Or, just follow us.

    • Facebook
    • Twitter
    • YouTube
    • Instagram
    • Linkedin


    MechE Analog

    Massachusetts Institute of Technology

    Department of Mechanical Engineering


    77 Massachusetts Avenue, Room 3-173

    Cambridge, Massachusetts 02139

    MIT Mechanical Engineering MIT