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Cells contain both macromolecules and small carbon compounds because they serve complementary roles in biological processes. Macromolecules, such as proteins, nucleic acids, carbohydrates, and lipids, provide structural support, catalyze reactions, and store genetic information. Small carbon compounds, like metabolites and signaling molecules, facilitate metabolic pathways, energy transfer, and communication within and between cells. Together, they create a dynamic and efficient cellular environment essential for life.
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Why do cells contains both macromolecules and small carbon compounds?
Organic
How can carbon build large macromolecules and ring structures?
Because it is small in volume. It can form four bonds. It can form long chains
How big are organic compounds?
Organic compounds can vary significantly in size, ranging from small molecules like methane (CH4), which consists of just one carbon atom and four hydrogen atoms, to large macromolecules such as proteins and nucleic acids, which can contain hundreds or thousands of atoms. Generally, organic compounds are characterized by the presence of carbon atoms bonded to hydrogen, oxygen, nitrogen, and other elements, allowing for a vast diversity of structures and functions. The size and complexity of these compounds are key to their roles in biochemistry and industrial applications.
What are three elements included in all organic compounds?
The three components that are needed to create small organic molecules are carbon, hydrogen and oxygen. These cells contain organic molecules and are essential to life.
Is carbon dioxide a macro molecule?
No, carbon dioxide is not a macromolecule. Macromolecules are large molecules made up of smaller subunits linked together, while carbon dioxide is a small molecule composed of one carbon atom and two oxygen atoms.
Why do cells contains both macromolecules and small carbon compounds?
Organic
Are carbon atoms also called micromolecules?
Carbon atoms are not specifically called micromolecules. Carbon atoms are the building blocks of larger molecules known as macromolecules, such as carbohydrates, proteins, lipids, and nucleic acids. Micromolecules refer to small molecules with a relatively low molecular weight and are not specific to carbon atoms.
Large organic compounds made mostly of carbon and hydrogen with a small amount of oxygen?
organic compounds
How can carbon build large macromolecules and ring structures?
Because it is small in volume. It can form four bonds. It can form long chains
How big are organic compounds?
Organic compounds can vary significantly in size, ranging from small molecules like methane (CH4), which consists of just one carbon atom and four hydrogen atoms, to large macromolecules such as proteins and nucleic acids, which can contain hundreds or thousands of atoms. Generally, organic compounds are characterized by the presence of carbon atoms bonded to hydrogen, oxygen, nitrogen, and other elements, allowing for a vast diversity of structures and functions. The size and complexity of these compounds are key to their roles in biochemistry and industrial applications.
What are three elements included in all organic compounds?
The three components that are needed to create small organic molecules are carbon, hydrogen and oxygen. These cells contain organic molecules and are essential to life.
Is carbon dioxide a macro molecule?
No, carbon dioxide is not a macromolecule. Macromolecules are large molecules made up of smaller subunits linked together, while carbon dioxide is a small molecule composed of one carbon atom and two oxygen atoms.
Is feather a carbon compound?
A feather is an organic item and therefore contains carbon
What is a large organic compounds made mostly of carbon and hydrogen with a small amount of oxygen?
Lipids
Idendify the components of carbohydrates and proteins?
Carbohydrate- Carbon, Hydrogen, and oxygen. Protein-Small carbon compounds. -Genius, Yirae.
Is city air a compound or mixture?
It is a mixture MAINLY of elements- nitrogen, oxygen, argon. However, there are a small number of compounds in the mixture- such as carbon dioxide (compound of carbon and oxygen)
Why is carbon able to form macromolecules?
It can form four bonds. It is small and can form long chains
