Navigating Overlapping Climate and Economic Uncertainties in the Transition from Fossil Fuels to Solar Energy

Petre Roman

Abstract: This paper explores the intricate interdependence between climate change dynamics and global economic uncertainties, particularly in the ongoing transition from fossil fuels to solar energy. Drawing on theories of complexity and entropy, the author underscores how overlapping uncertainties contribute to systemic instability and demand interdisciplinary adaptation strategies. Emphasis is placed on climate tipping points, nonlinear economic behaviors, and the limitations of conventional models in forecasting. By advocating for data-informed, AI-augmented simulations and rapid innovation, the study proposes that climate adaptation must be reframed as both a scientific and economic imperative. Overlapping is also adding new ways of understanding the underlying physical mechanisms determining the critical dynamics of both climate and economy. Climate scientists believe that Earth?s climate is approaching various irreversible tipping points. It is even possible to reach a global tipping point as several tipping points may eventually converge in a single assembly process. Thus, it became imperative to find out just how close they might be. The exact level of warming required to trigger any specific tipping point is not clear. The danger is to have global warming on its road and world energy production on another. That is, to continue the unsustainable trajectory of the global economy. The resolving of the problem lies in the markets and the development of future technologies. Transition from fossil fuels to solar energy is necessarily about business confronting uncertainty in our time.

Keywords: climate tipping points, economic uncertainty, entropy economics, fossil fuel transition, complexity theory

How to Cite?: Petre Roman, "Navigating Overlapping Climate and Economic Uncertainties in the Transition from Fossil Fuels to Solar Energy", Volume 14 Issue 9, September 2025, International Journal of Science and Research (IJSR), Pages: 1309-1317, https://www.ijsr.net/getabstract.php?paperid=SR25922165658, DOI: https://dx.doi.org/10.21275/SR25922165658