Papers by Tekendra Bokati
Zenodo (CERN European Organization for Nuclear Research), Apr 10, 2023
Zenodo (CERN European Organization for Nuclear Research), Apr 10, 2023
Tekendra Bokati, 2023
This paper proposes a hypothesis for the origin of life on Earth that combines the ideas of pansp... more This paper proposes a hypothesis for the origin of life on Earth that combines the ideas of panspermia and the primordial soup hypothesis. The hypothesis suggests that organic molecules were delivered to Earth by meteorites or comets, and these molecules accumulated in the Earth's early oceans, forming a "primordial soup" that contained a variety of complex organic compounds. Over time, these organic molecules could have combined and evolved to form the first living cells. The hypothesis is supported by a range of scientific evidence, including the discovery of organic compounds in meteorites and comets, as well as the observation that the early Earth had the necessary conditions for the formation of complex organic molecules, such as an atmosphere rich in methane, ammonia, and water vapor, and a source of energy, such as lightning or volcanic activity. However, this hypothesis also acknowledges the limitations of our current understanding of the complex processes involved in the origin of life, and suggests that further research is needed to fully understand this important scientific question.
Tekendra Bokati, 2023
This paper proposes a hypothesis for the origin of life on Earth that combines the ideas of pansp... more This paper proposes a hypothesis for the origin of life on Earth that combines the ideas of panspermia and the primordial soup hypothesis. The hypothesis suggests that organic molecules were delivered to Earth by meteorites or comets, and these molecules accumulated in the Earth's early oceans, forming a "primordial soup" that contained a variety of complex organic compounds. Over time, these organic molecules could have combined and evolved to form the first living cells. The hypothesis is supported by a range of scientific evidence, including the discovery of organic compounds in meteorites and comets, as well as the observation that the early Earth had the necessary conditions for the formation of complex organic molecules, such as an atmosphere rich in methane, ammonia, and water vapor, and a source of energy, such as lightning or volcanic activity. However, this hypothesis also acknowledges the limitations of our current understanding of the complex processes involved in the origin of life, and suggests that further research is needed to fully understand this important scientific question.
A Combinatorial Approach to the Origin of Life: A Hypothesis for the Role of Panspermia and Primordial Soup in the Emergence of Life on Earth, 2023
This paper proposes a hypothesis for the origin of life on Earth that combines the ideas of pansp... more This paper proposes a hypothesis for the origin of life on Earth that combines the ideas of panspermia and the primordial soup hypothesis. The hypothesis suggests that organic molecules were delivered to Earth by meteorites or comets, and these molecules accumulated in the Earth's early oceans, forming a "primordial soup" that contained a variety of complex organic compounds. Over time, these organic molecules could have combined and evolved to form the first living cells. The hypothesis is supported by a range of scientific evidence, including the discovery of organic compounds in meteorites and comets, as well as the observation that the early Earth had the necessary conditions for the formation of complex organic molecules, such as an atmosphere rich in methane, ammonia, and water vapor, and a source of energy, such as lightning or volcanic activity. However, this hypothesis also acknowledges the limitations of our current understanding of the complex processes involved in the origin of life, and suggests that further research is needed to fully understand this important scientific question.
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Papers by Tekendra Bokati