Nonlinear Oscillations

1.      Nonlinear oscillators in theoretical and practical systems

2.      Free conservative oscillators

2.1.Overview: simple harmonic oscillators 

2.2.Duffing-type oscillators

2.2.1.     Hardening Duffing oscillators

2.2.2.     Softening Duffing oscillators

2.2.3.     Bistable Duffing oscillators

2.2.4.     Pure cubic oscillators

2.3.Quadratic oscillators

2.4.Purely nonlinear oscillators

2.5.Oscillators with a constant restoring force

3.      Free damped oscillators

3.1.Lagrangians and conservation laws for damped oscillators

3.2.Quadratic damping

3.2.2.     In purely nonlinear oscillators

4.       Forced oscillators: exacts solutions for specially designed external excitation

4.1.1.     Exact solutions

4.2.Forced response of purely nonlinear oscillators

4.2.2.     On some simplifications and approximations

4.3.Turning Duffing-type oscillators into simple harmonic oscillators 

4.4.Turning Duffing-type oscillators into quadratic oscillators

4.6.Hsu’s approach with multi-term excitations

5.1.Making non-isochronous oscillators isochronous

5.3.About Huygens’ pendulum and its links with simple harmonic oscillators 

5.4.Isochronicity in forced nonlinear oscillators

6.      Chains of oscillators

6.6.1. Pure cubic case

6.6.2. General case: positive real-power nonlinearity

6.2.Generalization to nonlinear continuous systems

6.3.Equivalent stiffness in systems of parallel nonlinear springs

Appendix 1: On Beta and Gamma functions (definitions, expressions, series expansions)

Appendix 2: On Jacobi elliptic functions (definitions, relationships, Fourier series)

Appendix 3: On Ateb functions (definitions, relationships, Fourier series)

Appendix 4: On Wave functions (definitions, relationships, Fourier series)