Piotr Ogonowski

Piotr Ogonowski
Kozminski University

About

6
Publications
2,384
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6
Citations
Introduction
Piotr Ogonowski currently works at the Center of Excellence, Kozminski University. Piotr does research in Physics, Organizational Studies, Mathematical Economics and Computational Economics.

Publications

Publications (6)
Preprint
Full-text available
The article proposes an amendment to the relativistic continuum mechanics which introduce the relationship between density tensors and the curvature of spacetime. The resulting formulation of a symmetric stress-energy tensor for a system with an electromagnetic field, leads to the solution of Einstein Field Equations indicating a relationship betwe...
Book
Książka MINDSET LIDERA opisuje w jaki sposób nasze przekonania, wartości oraz sposób postrzegania firmy i siebie samych wpływa na decyzje które podejmujemy w zarządzaniu.
Article
Full-text available
Background: The complexity and uncertainty of the modern world encourage companies to use nowadays project management practices. Research of project management maturity allows assessing how well companies are prepared to run projects. The main motivation behind the article was lack of project management maturity assessment on the Polish logistic ma...
Book
Full-text available
Nowadays the scope of supply chain activities is changing very dynamically. New challenges appear in companies during everyday business execution. In order to meet the goal of competitiveness, companies need to apply new tools and methods to improve their logistics processes. The implementation of effective supply chain management solutions require...
Article
In the last article we have created foundations for gravitational field oriented framework (DaF) that reproduces GR. In this article we show, that using DaF approach, we can reproduce Schwarzschild solution with orbit equations, effective potential and constants of motion. Next we generalize results to other GR solutions and show, how gravitational...
Article
We show that Geroch decomposition leads us to Maxwell-like representation of gravity in $(3+1)$ metrics decomposition that may be perceived as Lorentz invariant version of GEM. For such decomposition we derive four-potential $V^\mu$ and gravitational field tensor $F^{\mu\nu}$ that is associated with gravitational interaction. Next we show that grav...

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