We demonstrated using an elementary method that the inertia tensor of a material point and the cross product of two vectors were only possible in a three or seven dimensional space. The representation matrix of the cross product in the seven dimensional space and its properties were given. The relationship between the inertia tensor and the octonions algebra was emphasized for the first time in this work
In this paper we investigate octonions and their special vector matrix representation. We give some ...
Defines cross product of vectors and illustrates the geometrical representation of the cross product...
The objective of this paper is to express a matrix of any dimension in unit vector notation. This is...
We demonstrated using an elementary method that the inertia tensor of a material point and the cross...
The tensor of the moment of inertia for polyatomic molecules is presented, discussed, and illustrate...
In textbooks and historical literature, the cross product has been defined only in 2-dimensional and...
The cross product of vectors is a fundamental notion in the vector analysis and the applications of ...
Vectors, cross product, dot productThis Demonstration computes and displays the cross product w = uX...
In this paper we investigate octonions and their special vector matrix representation. We give some...
Abstract: In this paper, formulation of inertia tensor for rigid bodies in a dynamic system is deriv...
Three commonly used methods to determine the principal moments of inertia of a plane area and their ...
According to celebrated Hurwitz theorem, there exists four division algebras consisting of R (real n...
Abstract: It is shown that in course of specific mechanical problem consideration, namely,...
In quantum mechanics, the ket notation for vectors was introduced in 1939 by Paul Dirac for describi...
This paper deals with the problem of measuring the inertia tensor of rigid bodies. An original appro...
In this paper we investigate octonions and their special vector matrix representation. We give some ...
Defines cross product of vectors and illustrates the geometrical representation of the cross product...
The objective of this paper is to express a matrix of any dimension in unit vector notation. This is...
We demonstrated using an elementary method that the inertia tensor of a material point and the cross...
The tensor of the moment of inertia for polyatomic molecules is presented, discussed, and illustrate...
In textbooks and historical literature, the cross product has been defined only in 2-dimensional and...
The cross product of vectors is a fundamental notion in the vector analysis and the applications of ...
Vectors, cross product, dot productThis Demonstration computes and displays the cross product w = uX...
In this paper we investigate octonions and their special vector matrix representation. We give some...
Abstract: In this paper, formulation of inertia tensor for rigid bodies in a dynamic system is deriv...
Three commonly used methods to determine the principal moments of inertia of a plane area and their ...
According to celebrated Hurwitz theorem, there exists four division algebras consisting of R (real n...
Abstract: It is shown that in course of specific mechanical problem consideration, namely,...
In quantum mechanics, the ket notation for vectors was introduced in 1939 by Paul Dirac for describi...
This paper deals with the problem of measuring the inertia tensor of rigid bodies. An original appro...
In this paper we investigate octonions and their special vector matrix representation. We give some ...
Defines cross product of vectors and illustrates the geometrical representation of the cross product...
The objective of this paper is to express a matrix of any dimension in unit vector notation. This is...