c*******n
发帖数: 1648 | | c*****e
发帖数: 238 | 2 A knot, probably.
Or loops in DNA/RNA
【在 c*******n 的大作中提到】
: Why?
| w********h
发帖数: 12367 | 3 give your definition of "single chain" first.
【在 c*******n 的大作中提到】
: Why?
| w********h
发帖数: 12367 | 4 knot, loop are different from entanglement.
according to my diagram: if the polymer is an isolated chain in smaller
molecules,
the longer, the more like Stokes, which is basically Zimm.
【在 c*****e 的大作中提到】
: A knot, probably.
: Or loops in DNA/RNA
| c*******n
发帖数: 1648 | 5 What if this single chain is not in solvent but in bulk state, and suppose
this chain is very very very....... long, long enough to reach a macroscopic
size to get ride of the surface effect.
【在 w********h 的大作中提到】
: give your definition of "single chain" first.
| c*******n
发帖数: 1648 | 6 I totally agree, and I am very very veli.. interested in your first sentence.
Could you explain a little bit more?
【在 w********h 的大作中提到】
: knot, loop are different from entanglement.
: according to my diagram: if the polymer is an isolated chain in smaller
: molecules,
: the longer, the more like Stokes, which is basically Zimm.
| c*******n
发帖数: 1648 | 7 Hehe, this is also one of my questions, if the knot has something to do with
the entanglement, why stiffer chains are generally easier to be entangled
than flexible chains. I guess flexible chains are easier to form kont(my
guess?)
【在 c*****e 的大作中提到】
: A knot, probably.
: Or loops in DNA/RNA
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