Chaotic behaviour in the solar system is very often connected with resonance. Great progresses have been made in the last few years to relate the existence of the Kirkwood gaps with chaos. Uses of mappings have allowed cheap computations over millions of years. Unexpected intermittent increase of orbital eccentricities due to the existence of thin chaotic zone provides a mechanism for planetary close approach. However semi-analytical developments show that at least for the 2/1 resonance the problem remains open. Chaotic rotations of satellites like Hyperion or Miranda and chaotic motion of comets in nearly parabolic orbits are predicted and some physical implications discussed. Both comet Halley and Hyperion appear to be good candidates for real examples of dynamical chaos in the solar system.
The dynamical evolution of meteor stream particles in resonance appear to be affected by the same resonance mechanisms as rcsonant asteroids. Crossing of separatrix.like zones appears to be crucial for the formation of arcs and for the dissolution of streams.
Investigating the orbital evolution of known resonant meteor streams and of model streams, we have found examples for such a transitory are formation. The orbital inclination of a meteor stream appears to be a critical parameter for arc formation.