Similarities between Molar mass distribution and Step-growth polymerization
Molar mass distribution and Step-growth polymerization have 4 things in common (in Unionpedia): Carothers equation, Cross-link, Dispersity, Polymer.
Carothers equation
In step-growth polymerization, the Carothers equation (or Carothers' equation) gives the degree of polymerization, Xn, for a given fractional monomer conversion, p. There are several versions of this equation, proposed by Wallace Carothers who invented nylon in 1935.
Carothers equation and Molar mass distribution · Carothers equation and Step-growth polymerization ·
Cross-link
A cross-link is a bond that links one polymer chain to another.
Cross-link and Molar mass distribution · Cross-link and Step-growth polymerization ·
Dispersity
A monodisperse, or uniform, polymer is composed of molecules of the same mass.
Dispersity and Molar mass distribution · Dispersity and Step-growth polymerization ·
Polymer
A polymer (Greek poly-, "many" + -mer, "part") is a large molecule, or macromolecule, composed of many repeated subunits.
Molar mass distribution and Polymer · Polymer and Step-growth polymerization ·
The list above answers the following questions
- What Molar mass distribution and Step-growth polymerization have in common
- What are the similarities between Molar mass distribution and Step-growth polymerization
Molar mass distribution and Step-growth polymerization Comparison
Molar mass distribution has 32 relations, while Step-growth polymerization has 80. As they have in common 4, the Jaccard index is 3.57% = 4 / (32 + 80).
References
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