Are you REALLY a Carbon Based Life Form?

biocinematics

19 Jun 201908:21

Summary

TLDRThe video script explores the composition of the human body, debunking the common notion that we are primarily made of carbon. It explains that while carbon is a crucial element, we are predominantly composed of oxygen, followed by carbon and hydrogen. The script delves into the concept of atoms and molecules, highlighting the importance of carbon's ability to form versatile bonds, which is essential for the creation of diverse biomolecules. These biomolecules, including vitamins, hormones, sugars, and fats, are the building blocks of life. The video also touches on why carbon is favored over other elements, citing its abundance, stability, and unique bonding capabilities. The presenter, Stuart, invites viewers to join him in future explorations of biology through his channel, Biocinematics.

Takeaways

🌌 Humans are composed of around 7 billion billion billion atoms, which are the fundamental building blocks of matter.
🔍 Atoms come in various types known as 'elements,' which are arranged on the Periodic Table from light to heavy.
🟤 Although referred to as 'carbon-based life-forms,' humans are predominantly made up of Oxygen, Carbon, and Hydrogen by weight.
🤝 Atoms link together to form molecules through bonds, which are often represented as sticks between spheres in illustrations.
💧 Water (H2O) is a critical molecule for life, and its bent structure is essential for life on Earth.
🔬 Carbon's ability to form four bonds with other atoms makes it versatile and central to the formation of various biomolecules.
🌐 Biomolecules, which include vitamins, hormones, sugars, and fats, are diverse and complex, with carbon playing a significant role.
💎 Carbon-carbon bonds are strong, as seen in diamond, but also allow for the necessary breaking and forming in biological processes.
⚙️ Silicon, despite forming four bonds like carbon, is less stable due to its larger atomic size and weaker bonds compared to carbon.
🌿 Carbon's abundance in the universe and on Earth, along with its unique properties, make it the basis for life as we know it.
📺 The video concludes with an invitation to learn more about biology through animations and to share knowledge with other curious individuals.

Q & A

What is the smallest unit of matter that cannot be divided into smaller parts?
-An atom is considered the smallest unit of matter that cannot be divided into smaller parts for the purpose of this explanation.
How many atoms are there in the human body?
-The human body is made up of about 7 billion billion billion atoms.
What are the different types of atoms known as?
-The different types of atoms are known as 'elements,' which can be found on the Periodic Table.
Which elements make up the majority of the human body by weight?
-By weight, the human body is primarily composed of Oxygen, Carbon, and Hydrogen.
What is the significance of the angle at which atoms connect in a molecule?
-The specific angles at which atoms connect in a molecule are crucial for the molecule's shape and function, as exemplified by the critical importance of the bend in the water molecule.
Why are we referred to as 'carbon-based life-forms' despite water making up a significant portion of our body?
-We are called 'carbon-based life-forms' because carbon is a key element in the formation of biomolecules, which are the building blocks of life, even though water constitutes a large percentage of our body.
How does carbon's ability to form four bonds contribute to its versatility in forming biomolecules?
-Carbon's ability to form four bonds with other atoms allows it to create a vast array of molecular structures, including double, triple, or single bonds, making it a fundamental component in the diverse biomolecules that constitute life.
Why is carbon more suitable for forming the backbone of biomolecules compared to silicon?
-Carbon is more suitable because it forms stronger bonds and is more versatile in creating a wide range of molecular structures. Silicon, despite also forming four bonds, is a larger atom and its bonds are not as stable as carbon-carbon bonds.
What is the role of bonds in forming molecules?
-Bonds are the connections between atoms that hold them together to form molecules. They can be single, double, or triple, depending on the type of atoms and the molecule's structure.
Why are carbon-carbon bonds particularly strong?
-Carbon-carbon bonds are particularly strong due to the small size and high electronegativity of carbon atoms, which allows for a strong overlap of electron clouds, as demonstrated by the hardness of diamond, which is pure carbon.
How do biomolecules differ from other types of molecules?
-Biomolecules are molecules that are produced by living organisms and are essential to or involved in life processes. They are characterized by their complexity, diversity, and the presence of carbon as a key element in their structure.
What is the importance of the ability to break and form carbon bonds in biomolecules within the body?
-The ability to break and form carbon bonds is crucial for life as it allows for the chemical reactions that sustain metabolism, growth, and reproduction, enabling the dynamic nature of biological systems.