This book offers a comprehensive exploration of Lorentz spaces, delving into key areas of mathematics, such as linear algebra, analytical geometry, differential geometry (including the theory of curves, the theory of surfaces), kinematic geometry, and manifolds, all from a Lorentzian perspective. It illustrates how these fundamental fields can be applied to Lorentzian geometry. This work is aimed at postgraduate students and researchers seeking to gain a
thorough understanding of the funda ...