In our previous paper [12] for generic rank 2 vector distributions on n-dimensional manifold (n ≥ 5) we constructed a special differential invariant, the fundamental form. In the case n = 5 this differential invariant has the same algebraic nature, as the covariant binary biquadratic form, constructed by E.Cartan in [7], using his “reductionprolongation” procedure (we call this form Cartan’s tensor). In the present paper we prove that our fundamental form coincides (up to constant factor −35) with Cartan’s tensor. This result explains geometric reason for existence of Cartan’s tensor (originally this tensor was obtained by very sophisticated algebraic manipulations) and gives the true analogs of this tensor in Riemannian geometry. In addition, as a part of the proof, we obtain a new useful formula for Cartan’s tensor in terms of structural functions of any frame naturally adapted to the distribution.
[1]
A. Agrachev,et al.
Principal invariants of Jacobi curves
,
2001
.
[2]
Robert L. Bryant,et al.
Rigidity of integral curves of rank 2 distributions
,
1993
.
[3]
A. Agrachev,et al.
Geometry of Jacobi Curves. I
,
2002
.
[4]
Michail Zhitomirskii.
Typical Singularities of Differential 1-Forms and Pfaffian Equations
,
1992
.
[5]
S. Yau,et al.
Lectures on Differential Geometry
,
1994
.
[6]
John B. Shoven,et al.
I
,
Edinburgh Medical and Surgical Journal.
[7]
I. Zelenko.
Nonregular Abnormal Extremals of 2-Distribution: Existence, Second Variation, and Rigidity
,
1999
.
[8]
I. Zelenko.
Variational Approach to Differential Invariants of Rank 2 Vector Distributions
,
2004
.