Mathematically proving "can't push on a rope"

**Rch2233** · 03-28-2018, 09:00 PM

I know intuitively that if i hold a roll of rope in front of me and have one end of the rope draped over a pulley above my head, that if I try to push the rope over the pulley by unspooling the rope, it won't work because I can't push on a rope, but what is the math behind it? Is there a speed that the pulley can spin that will draw up the rope?

**Kelly_Bramble** · 03-28-2018, 09:10 PM

Google "Newtons laws of Gravity"

aakashsaxena291 · 05-02-2018, 04:28 AM

The Reason behind the phenomena is friction, the Newtons law of gravity said that every object is experiencing the Gravitation Force, push and pull and other forces

**Hudson** · 05-02-2018, 10:41 AM

I see this problem similar to Euler's column buckling problem with a low modulus and high slenderness ratio.

**Hudson** · 05-17-2018, 12:44 AM

Fluids are pushed all of the time. Ever seen a fire hose?

**Kelly_Bramble** · 05-17-2018, 08:51 AM

I suppose that Column Theory or Euler's formula could be used.. Both ends would be treated as pinned?

https://www.engineersedge.com/column...lumn_ideal.htm

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