Module polymers::physics::single_chain::efjc::thermodynamics::isotensional::asymptotic::alternative
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The extensible freely-jointed chain (EFJC) model thermodynamics in the isotensional ensemble approximated using an alternative asymptotic approach.
Modules§
- The extensible freely-jointed chain (EFJC) model thermodynamics in the isotensional ensemble approximated using an alternative alternative asymptotic approach and a Legendre transformation.
Structs§
- The structure of the thermodynamics of the EFJC model thermodynamics in the isotensional ensemble approximated using an alternative asymptotic approach.
Functions§
- The expected end-to-end length as a function of the applied force and temperature, parameterized by the number of links, link length, and link stiffness.
- The expected end-to-end length per link as a function of the applied force and temperature, parameterized by the link length and link stiffness.
- The Gibbs free energy as a function of the applied force and temperature, parameterized by the number of links, link length, hinge mass, and link stiffness.
- The Gibbs free energy per link as a function of the applied force and temperature, parameterized by the link length, hinge mass, and link stiffness.
- The expected nondimensional end-to-end length as a function of the applied nondimensional force, parameterized by the number of links and nondimensional link stiffness.
- The expected nondimensional end-to-end length per link as a function of the applied nondimensional force, parameterized by the nondimensional link stiffness.
- The nondimensional Gibbs free energy as a function of the applied nondimensional force and temperature, parameterized by the number of links, link length, hinge mass, and nondimensional link stiffness.
- The nondimensional Gibbs free energy per link as a function of the applied nondimensional force and temperature, parameterized by the link length, hinge mass, and nondimensional link stiffness.
- The nondimensional relative Gibbs free energy as a function of the applied nondimensional force, parameterized by the number of links and nondimensional link stiffness.
- The nondimensional relative Gibbs free energy per link as a function of the applied nondimensional force, parameterized by the nondimensional link stiffness.
- The relative Gibbs free energy as a function of the applied force and temperature, parameterized by the number of links, link length, and link stiffness.
- The relative Gibbs free energy per link as a function of the applied force and temperature, parameterized by the link length and link stiffness.