🌍 3. Beginnings of Life on Earth – Evolution, First Cells, and the Development of Life

📊 Scientific Data
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Period:
~3.5 billion years – present
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Location:
Inside the cells of all living things
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Type:
Biological structure / Genetic material
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🧾 Description
DNA is the molecule that carries the genetic information in all living things. Its structure is a double helix, consisting of two chains that wrap around each other.
DNA contains the instructions for building proteins and cell function, and is responsible for passing on traits from generation to generation. Every living thing – from plants to humans – is based on its unique genetic code.
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The structure of DNA was discovered in 1953 by scientists James Watson and Francis Crick, and is one of the most important discoveries in modern science.
In the context of astrogeometry, DNA represents the basis of life on Earth and the connection between all living things.
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🌍 Where it lived
DNA is found inside the cells of all living things, from

📊 Scientific data
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Period:
~Billions of years ago – present
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Location:
Active tectonic zones on Earth
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Type:
Geological formation / volcanic activity
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🧾 Description
A volcano is a geological structure that forms when magma (molten rock) rises from deep within the Earth and erupts to the surface. During an eruption, lava, gases, and volcanic ash are emitted.
Volcanoes form primarily in areas where tectonic plates meet or separate, such as at subduction zones or oceanic ridges. Volcanic activity played a major role in shaping the Earth's surface and the formation of an ancient atmosphere.
Despite the dangers, volcanoes also contribute to the creation of fertile soils and the formation of new islands.
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In the context of astrogeometry, a volcano represents the internal forces of the Earth and the ongoing energy that shapes its surface.
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🌍 Where are they located
Volcanoes are found in geologically active areas around the world,

📊 Scientific Data
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Period:
~Billions of years – present
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Location:
Earth
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Type:
Geological Formation / Landform
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🧾 Description
The Earth’s surface is made up of a variety of landforms, such as mountains, plains, valleys, and plateaus. These landforms are created by long-term geological processes such as plate tectonics, volcanic activity, erosion, and winds.
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The models on display demonstrate different types of landforms – from flat plains to pointed mountains – and help you understand how natural forces shape the Earth’s surface over time.
Processes such as erosion and sedimentation are constantly changing the surface, creating diverse landscapes all over the world.
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In the context of astrogeometry, the Earth's surface represents the dynamism of nature and the ongoing changes that shape our environment.
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🌍 Where is it located
The surface is located on Earth, and constitutes the outermost layer of the continental crust.

📊 Scientific data
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Period:
~50 million years ago – present
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Location:
Himalayas, between Nepal and Tibet
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Type:
Mountain / Geological formation
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🧾 Description
Mount Everest is the highest mountain in the world, at an altitude of approximately 8,848 meters above sea level. It is part of the Himalayan mountain range and was formed as a result of the collision between the Indian plate and the Eurasian plate.
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This process, called plate tectonics, caused the land to rise and create huge mountain ranges. Even today, the mountain continues to grow slowly due to the movement of the plates.
Everest is a symbol of challenge, exploration and discovery, and it attracts climbers and explorers from all over the world. The environmental conditions there are very extreme – low oxygen, low temperatures and strong winds.
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In the context of astrogeometry, Mount Everest represents the immense forces of nature and the geological processes that have shaped the Earth's surface.

📊 Scientific Data
​
Period:
~3.5 billion years – present
​
Location:
Inside the cells of all living things
​
Type:
Biological structure / Genetic material
​
🧾 Description
DNA is the molecule that carries the genetic information in all living things. Its structure is a double helix, consisting of two chains that wrap around each other.
DNA contains the instructions for building proteins and cell function, and is responsible for passing on traits from generation to generation. Every living thing – from plants to humans – is based on its unique genetic code.
​
The structure of DNA was discovered in 1953 by scientists James Watson and Francis Crick, and is one of the most important discoveries in modern science.
In the context of astrogeometry, DNA represents the basis of life on Earth and the connection between all living things.
​
🌍 Where is it found
DNA is found within the cells of all living things, from the simplest creatures to humans.

📊 Scientific Data
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Period: ⏳
~3.5 billion years – present
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Location: 📍
Within all living things 🐾🌿🦠
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Type: 🧾
Biological Structure 🔬 / Basic Unit of Life 🧬
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🧾 Description
The cell is the basic unit of life 🧬✨. All living things are made up of cells – from simple bacteria 🦠 to complex humans 🧍‍♂️🧍‍♀️.
The cell includes various internal structures called organelles 🔬, each of which has a unique function 🎯.
The nucleus 🧠 contains the DNA 🧬 and controls the cell’s activity ⚙️.
Mitochondria produce energy ⚡🔥, and the intracellular reticulum and Golgi apparatus are responsible for the production and transport of materials 📦➡️.
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The cell membrane 🛡️ surrounds the cell and controls what enters and leaves it 🚪⬅️➡️, thus maintaining internal balance ⚖️.
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This model allows us to understand how life works at the microscopic level 🔍 and how every living thing is built to fit 🧬.
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In the context of astrogeometry 🌌🚀, the cell represents the basis of all life – from the simplest structure to complex systems in the universe 🌠.
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🌍 Where is it found
Cells are found in all living things 🌍:
in plants 🌿🌱, animals 🐾🐘, and microorganisms 🦠🔬.

📊 Scientific Data
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Period: ⏳
~3.5 billion years – present
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Location: 📍
Everywhere on Earth 🌍 (water 🌊, soil 🌱, air 🌬️, and inside the body 🧍‍♂️)
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Type: 🧾
Microorganisms / Bacteria and Viruses 🦠
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🧾 Description
Bacteria and viruses are tiny microorganisms 🦠🔬 that are invisible to the naked eye 🔍.
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Bacteria are single-celled living organisms 🧬 that can exist in almost any environment 🌍🔥❄️. Some are very beneficial 🌿, such as those that aid in digestion or produce oxygen, while others can cause disease 🤒.
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Viruses 🦠⚠️ differ from bacteria in that they are not considered fully living organisms, and they require a host cell to reproduce 🧫➡️🧬.
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This model shows the diversity of microorganisms and their importance in the living world 🌍✨.
In the context of astrogeometry 🌌🚀, microorganisms represent the invisible forces that shape life on Earth 🔍🧬.

🌍 Where are we found ​
Microorganisms are found everywhere 🌍:
in water 🌊, soil 🌱, air 🌬️, and inside living things 🧍‍♂️🦠.

📊 Scientific data
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Period: ⏳
~3.5–4 billion years
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Location: 📍
Ancient oceans 🌊
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Type: 🧾
Unicellular organisms / primitive life 🦠
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🧾 Description
The first organisms on Earth were microscopic creatures 🦠 that lived in the ancient oceans 🌊🔥. They were very simple in their structure, without a defined nucleus, and are therefore called prokaryotes.
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These creatures were the basis for the development of all life on Earth 🌍✨. Some of them developed the ability to perform photosynthesis 🌞🌿, a process that led to the creation of oxygen in the atmosphere 🫁🌬️ and changed the surface of the Earth.
Over time, these organisms evolved into more complex life forms 🧬➡️🐾.
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This model shows the beginning of life on Earth and allows you to understand how it all began.
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In the context of astrogeometry 🌌🚀, the first organisms represent the beginning of life and the transition from inanimate to living 🌑➡️🌱.
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🌍 Where are we
The first organisms lived in the ancient oceans 🌊🦠.