Riemannian Geometry in an Orthogonal Frame

The following sections are included:

• Foreword

• Translator's Introduction

• Preface to the Russian Edition

• Contents

The following sections are included:

• Components of an infinitesimal displacement

• Relations among 1-forms of an orthonormal frame

• Finding the components of a given family of trihedrons

• Moving frames

• Line element of the space

• Contravariant and covariant components

• Infinitesimal affine transformations of a frame

The following sections are included:

• Differentiation in a given direction

• Bilinear covariant of Frobenius

• Skew-symmetric bilinear forms

• Exterior quadratic forms

• Converse theorems. Cartan's Lemma

• Exterior differential

The following sections are included:

• Integral manifold of a system

• Necessary condition of complete integrability

• Necessary and sufficient condition of complete integrability of a system of Pfaffian equations

• Path independence of the solution

• Reduction of the problem of integration of a completely integrable system to the integration of a Cauchy system

• First integrals of a completely integrable system

• Relation between exterior differentials and the Stokes formula

• Orientation

The following sections are included:

• Exterior differential forms of arbitrary order

• The Poincaré Theorem

• The Gauss formula

• Generalization of Theorem 6 of No. 12

The following sections are included:

• Family of oblique trihedrons

• The family of orthonormal trihedrons

• Family of oblique trihedrons with a given line element

• Integration of system (I) by the method of the form invariance

• Particular cases

• Spaces of trihedrons

The following sections are included:

• The rigidity of the point space

• Geometric meaning of the Weyl theorem

• Deformation of the tangential space

• Deformation of the plane considered as a locus of straight lines

• Ruled space

The following sections are included:

• Transformation of the space with preservation of a line element

• Equivalence of reduction of a line element to a sum of squares to the choosing of a frame to be orthogonal

• Congruence and symmetry

• Determination of forms for given forms ωⁱ

• Three-dimensional case

• Absolute differentiation

• Divergence of a vector

• Differential parameters

The following sections are included:

• Notion of a tensor

• Tensor algebra

• Geometric meaning of a skew-symmetric tensor

• Scalar product of a bivector and a vector and of two bivectors

• Simple rotation of a rigid body around a point

The following sections are included:

• Absolute differentiation

• Rules of absolute differentiation

• Exterior differential tensor-valued form

• A problem of absolute exterior differentiation

The following sections are included:

• The general notion of a manifold

• Analytic representation

• Riemannian manifolds. Regular metric

The following sections are included:

• Definition of a locally Euclidean manifold

• Examples

• Riemannian manifold with an everywhere regular metric

• Locally compact manifold

• The holonomy group

• Discontinuity of the holonomy group of the locally Euclidean manifold

The following sections are included:

• Euclidean tangent metric

• Tangent Euclidean space

• The main notions of vector analysis

• Three methods of introducing a connection

• Euclidean metric osculating at a point

The following sections are included:

• Absolute differentiation of vectors on a Riemannian manifold

• Geodesics of a Riemannian manifold

• Generalization of the Frenet formulas. Curvature and torsion

• The theory of curvature of surfaces in a Riemannian manifold

• Geodesic torsion. The Enneper theorem

• Conjugate directions

• The Dupin theorem on a triply orthogonal system

The following sections are included:

• Development of a Riemannian manifold in Euclidean space along a curve

• The constructed representation and the osculating Euclidean space

• Geodesics. Parallel surfaces

• Geodesics on a surface

The following sections are included:

• Determination of forms for given forms ωⁱ

• Condition of invariance of line element

• Axioms of equipollence of vectors

• Space with Euclidean connection

• Euclidean space of conjugacy

• Absolute exterior differential

• Torsion of the manifold

• Structure equations of a space with Euclidean connection

• Translation and rotation associated with a cycle

• The Bianchi identities

• Theorem of preservation of curvature and torsion

The following sections are included:

• The Bianchi identities in a Riemannian manifold

• The Riemann–Christoffel tensor

• Riemannian curvature

• The case n = 2

• The case n = 3

• Geometric theory of curvature of a three-dimensional Riemannian manifold

• Schur's theorem

• Example of a Riemannian space of constant curvature

• Determination of the Riemann–Christoffel tensor for a Riemannian curvature given for all planar directions

• Isotropic n-dimensional manifold

• Curvature in two different two-dimensional planar directions

• Riemannian curvature in a direction of arbitrary dimension

• Ricci tensor. Einstein's quadric

The following sections are included:

• Congruence of spaces of the same constant curvature

• Existence of spaces of constant curvature

• Proof of Schur

• The system is satisfied by the solution constructed

The following sections are included:

• Spaces of constant positive curvature

• Mapping onto an n-dimensional projective space

• Hyperbolic space

• Representation of vectors in hyperbolic geometry

• Geodesics in Riemannian manifold

• Pseudoequipollent vectors: pseudoparallelism

• Geodesics in spaces of constant curvature

• The Cayley metric

The following sections are included:

• The field of geodesics

• Stationary state of the arc length of a geodesic in the family of lines joining two points

• The first variation of the arc length of a geodesic

• The second variation of the arc length of a geodesic

• The minimum for the arc length of a geodesic (Darboux's proof)

• Family of geodesics of equal length intersecting the same geodesic at a constant angle

The following sections are included:

• Distance between neighboring geodesics and curvature of a manifold

• The sum of the angles of a parallelogramoid

• Stability of a motion of a material system without external forces

• Investigation of the maximum and minimum for the length of a geodesic in the case A_ij = const

• Symmetric vectors

• Parallel transport by symmetry

• Determination of three-dimensional manifolds, in which the parallel transport preserves the curvature

The following sections are included:

• Geodesic surface at a point. Serveri's method of parallel transport of a vector.

• Totally geodesic surfaces

• Development of lines of a totally geodesic surface on a plane

• The Ricci theorem on orthogonal trajectories of totally geodesic surfaces

The following sections are included:

• The Frenet formulas in a Riemannian manifold

• Determination of a curve with given curvature and torsion. Zero torsion curves in a space of constant curvature

• Curves with zero torsion and constant curvature in a space of constant negative curvature

• Integration of Frenet's equations of these curves

• Euclidean space of conjugacy

• The curvature of a Riemannian manifold occurs only in infinitesimals of second order

The following sections are included:

• The first two structure equations and their geometric meaning

• The third structure equation. Invariant forms (scalar and Exterior)

• The second fundamental form of a surface

• Asymptotic lines. Euler's theorem. Total and mean curvature of a surface

• Conjugate tangents

• Geometric meaning of the form ψ

• Geodesic lines on a surface. Geodesic torsion. Enneper's theorem

The following sections are included:

• Laguerre's form

• Darboux's form

• Riemannian curvature of the ambient manifold

• The second group of structure equations

• Generalization of classical theorems on normal curvature and geodesic torsion

• Surfaces with a given line element in Euclidean space

• Problems on Laguerre's form

• Invariance of normal curvature under parallel transport of a vector

• Surfaces in a space of constant curvature

The following sections are included:

• Absolute variation of a tangent vector. Interior differentiation. Euler's curvature

• Tensor character of Euler's curvature

• The second system of structure equations

• PARTICULAR CASES
  • A HYPERSURFACE IN A FOUR-DIMENSIONAL SPACE
    • Principal directions and principal curvatures
    • Hypersurface in the Euclidean space
  • TWO-DIMENSIONAL SURFACES IN A FOUR-DIMENSIONAL MANIFOLD
    • Ellipse of normal curvature
    • Generalization of classical notions
    • Minimal surfaces
    • Finding minimal surfaces

The following sections are included:

• Subject Index