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#interfacialflows — Public Fediverse posts

Live and recent posts from across the Fediverse tagged #interfacialflows, aggregated by home.social.

  1. How do fluids really slip on surfaces?

    This study proposes a method to estimate slip length and reconstruct flow fields from limited data.

    A key step to better understand flows where friction at the wall nearly vanishes.

    🔗 pubs.aip.org/aip/pof/article-a

    #fluiddynamics #interfacialflows #SlipLength #hydrodynamics #physics

  2. How do fluids really slip on surfaces?

    This study proposes a method to estimate slip length and reconstruct flow fields from limited data.

    A key step to better understand flows where friction at the wall nearly vanishes.

    🔗 pubs.aip.org/aip/pof/article-a

    #fluiddynamics #interfacialflows #SlipLength #hydrodynamics #physics

  3. How do fluids really slip on surfaces?

    This study proposes a method to estimate slip length and reconstruct flow fields from limited data.

    A key step to better understand flows where friction at the wall nearly vanishes.

    🔗 pubs.aip.org/aip/pof/article-a

    #fluiddynamics #interfacialflows #SlipLength #hydrodynamics #physics

  4. How do fluids really slip on surfaces?

    This study proposes a method to estimate slip length and reconstruct flow fields from limited data.

    A key step to better understand flows where friction at the wall nearly vanishes.

    🔗 pubs.aip.org/aip/pof/article-a

    #fluiddynamics #interfacialflows #SlipLength #hydrodynamics #physics

  5. How do fluids really slip on surfaces?

    This study proposes a method to estimate slip length and reconstruct flow fields from limited data.

    A key step to better understand flows where friction at the wall nearly vanishes.

    🔗 pubs.aip.org/aip/pof/article-a

    #fluiddynamics #interfacialflows #SlipLength #hydrodynamics #physics

  6. When a drop or object hits water, a narrow high-speed jet can shoot upward: the Worthington jet. This study reveals universal scaling laws that govern how these jets form and evolve across different impact conditions.

    🔗 journals.aps.org/prfluids/abst

    #FluidDynamics #DropImpact #WorthingtonJet #Physics #InterfacialFlows

  7. When a drop or object hits water, a narrow high-speed jet can shoot upward: the Worthington jet. This study reveals universal scaling laws that govern how these jets form and evolve across different impact conditions.

    🔗 journals.aps.org/prfluids/abst

    #FluidDynamics #DropImpact #WorthingtonJet #Physics #InterfacialFlows

  8. When a drop or object hits water, a narrow high-speed jet can shoot upward: the Worthington jet. This study reveals universal scaling laws that govern how these jets form and evolve across different impact conditions.

    🔗 journals.aps.org/prfluids/abst

    #FluidDynamics #DropImpact #WorthingtonJet #Physics #InterfacialFlows

  9. When a drop or object hits water, a narrow high-speed jet can shoot upward: the Worthington jet. This study reveals universal scaling laws that govern how these jets form and evolve across different impact conditions.

    🔗 journals.aps.org/prfluids/abst

    #FluidDynamics #DropImpact #WorthingtonJet #Physics #InterfacialFlows

  10. When a drop or object hits water, a narrow high-speed jet can shoot upward: the Worthington jet. This study reveals universal scaling laws that govern how these jets form and evolve across different impact conditions.

    🔗 journals.aps.org/prfluids/abst

    #FluidDynamics #DropImpact #WorthingtonJet #Physics #InterfacialFlows

  11. A key takeaway for LeidenForce: surface wettability radically reshapes the surface–bubble–flow coupling—smaller bubbles, higher detachment frequency, stronger vortical flows.

    🔗 journals.aps.org/prfluids/abst

    #FluidDynamics #MultiphaseFlow #InterfacialFlows #LeidenfrostEffect #wettability