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#viscous — Public Fediverse posts

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

  1. Dude I did the most baller fucking kill as #viscous #deadlock

  2. Dude I did the most baller fucking kill as #viscous #deadlock

  3. Dude I did the most baller fucking kill as #viscous #deadlock

  4. "Do you know why I called you to my office?"

    "No. What is it?"

    "You don't know what an office is?"

    "Yea, I do. I mean, what's the matter."

    "Your child attacked another child, most viscously."

    "Viscously?"

    "Yes. He doused the other student in molasses."

    #vicious #viscous #molasses #nonsense

  5. "Do you know why I called you to my office?"

    "No. What is it?"

    "You don't know what an office is?"

    "Yea, I do. I mean, what's the matter."

    "Your child attacked another child, most viscously."

    "Viscously?"

    "Yes. He doused the other student in molasses."

    #vicious #viscous #molasses #nonsense

  6. "Do you know why I called you to my office?"

    "No. What is it?"

    "You don't know what an office is?"

    "Yea, I do. I mean, what's the matter."

    "Your child attacked another child, most viscously."

    "Viscously?"

    "Yes. He doused the other student in molasses."

    #vicious #viscous #molasses #nonsense

  7. "Do you know why I called you to my office?"

    "No. What is it?"

    "You don't know what an office is?"

    "Yea, I do. I mean, what's the matter."

    "Your child attacked another child, most viscously."

    "Viscously?"

    "Yes. He doused the other student in molasses."

    #vicious #viscous #molasses #nonsense

  8. A simple model for it might be to assume it is a #linear #viscous fluid offering resistance proportional to the velocity of the projectile, i.e. R = -k.v, where v is the velocity vector and k is a constant which dictates how viscous the fluid is.

    Happily, this model has exact solutions so I didn’t need to do any numerical integration. Here are four different cases, including the ideal case k = 0. The others are k = 0.1, 1 and 10, with the k=1highlighted. Pt2...

    #MyWork #CCBYSA #Maths #WxMaxima

  9. A simple model for it might be to assume it is a #linear #viscous fluid offering resistance proportional to the velocity of the projectile, i.e. R = -k.v, where v is the velocity vector and k is a constant which dictates how viscous the fluid is.

    Happily, this model has exact solutions so I didn’t need to do any numerical integration. Here are four different cases, including the ideal case k = 0. The others are k = 0.1, 1 and 10, with the k=1highlighted. Pt2...

    #MyWork #CCBYSA #Maths #WxMaxima

  10. A simple model for it might be to assume it is a #linear #viscous fluid offering resistance proportional to the velocity of the projectile, i.e. R = -k.v, where v is the velocity vector and k is a constant which dictates how viscous the fluid is.

    Happily, this model has exact solutions so I didn’t need to do any numerical integration. Here are four different cases, including the ideal case k = 0. The others are k = 0.1, 1 and 10, with the k=1highlighted. Pt2...

    #MyWork #CCBYSA #Maths #WxMaxima

  11. A simple model for it might be to assume it is a #linear #viscous fluid offering resistance proportional to the velocity of the projectile, i.e. R = -k.v, where v is the velocity vector and k is a constant which dictates how viscous the fluid is.

    Happily, this model has exact solutions so I didn’t need to do any numerical integration. Here are four different cases, including the ideal case k = 0. The others are k = 0.1, 1 and 10, with the k=1highlighted. Pt2...

    #MyWork #CCBYSA #Maths #WxMaxima

  12. A simple model for it might be to assume it is a #linear #viscous fluid offering resistance proportional to the velocity of the projectile, i.e. R = -k.v, where v is the velocity vector and k is a constant which dictates how viscous the fluid is.

    Happily, this model has exact solutions so I didn’t need to do any numerical integration. Here are four different cases, including the ideal case k = 0. The others are k = 0.1, 1 and 10, with the k=1highlighted. Pt2...

    #MyWork #CCBYSA #Maths #WxMaxima

  13. What is the scientific word for a Fluid or semi-Fluid that holds its bead when put on a surface. Think ketchup. You could write with it, and the ketchup would mostly hold its location and height.

    Is this viscosity also? Or is there a word for the vertical strength of a liquid/gel

    #hydrodynamics #science #engineering #liquid #gel #viscous #viscosity

  14. What is the scientific word for a Fluid or semi-Fluid that holds its bead when put on a surface. Think ketchup. You could write with it, and the ketchup would mostly hold its location and height.

    Is this viscosity also? Or is there a word for the vertical strength of a liquid/gel

    #hydrodynamics #science #engineering #liquid #gel #viscous #viscosity

  15. What is the scientific word for a Fluid or semi-Fluid that holds its bead when put on a surface. Think ketchup. You could write with it, and the ketchup would mostly hold its location and height.

    Is this viscosity also? Or is there a word for the vertical strength of a liquid/gel

    #hydrodynamics #science #engineering #liquid #gel #viscous #viscosity

  16. What is the scientific word for a Fluid or semi-Fluid that holds its bead when put on a surface. Think ketchup. You could write with it, and the ketchup would mostly hold its location and height.

    Is this viscosity also? Or is there a word for the vertical strength of a liquid/gel

    #hydrodynamics #science #engineering #liquid #gel #viscous #viscosity

  17. What is the scientific word for a Fluid or semi-Fluid that holds its bead when put on a surface. Think ketchup. You could write with it, and the ketchup would mostly hold its location and height.

    Is this viscosity also? Or is there a word for the vertical strength of a liquid/gel

    #hydrodynamics #science #engineering #liquid #gel #viscous #viscosity

  18. @kathygriffin
    Loving the auto-error of #AOC and #Pelosi comments being "viscous". Pretty sure you meant "#Viscous" there 😂

  19. @kathygriffin
    Loving the auto-error of #AOC and #Pelosi comments being "viscous". Pretty sure you meant "#Viscous" there 😂

  20. @kathygriffin
    Loving the auto-error of #AOC and #Pelosi comments being "viscous". Pretty sure you meant "#Viscous" there 😂

  21. @kathygriffin
    Loving the auto-error of #AOC and #Pelosi comments being "viscous". Pretty sure you meant "#Viscous" there 😂

  22. @kathygriffin
    Loving the auto-error of #AOC and #Pelosi comments being "viscous". Pretty sure you meant "#Viscous" there 😂