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A carbohydrate molecule is made up of carbon, hydrogen, and oxygen atoms arranged in a specific way. Its structure is determined by the arrangement of these atoms in a chain or ring formation. The specific arrangement of the atoms determines the type of carbohydrate molecule it is, such as a simple sugar or a complex starch. Scientists use techniques like X-ray crystallography and nuclear magnetic resonance (NMR) spectroscopy to determine the structure of carbohydrate molecules.
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The backbone of carbon in a carbohydrate comes from?
The backbone of carbon in a carbohydrate comes from simple sugar molecules like glucose. These sugar molecules link together in chains to form the structure of a carbohydrate.
What is a chain like molecule that helps determine the structure of plants?
Cellulose is a chain-like molecule that helps determine the structure of plants. It is a major component of cell walls in plants and provides structural support to the plant cells.
How can one determine the presence of chiral centers in a molecule and what methods can be used to find them?
Chiral centers in a molecule can be determined by looking for carbon atoms bonded to four different groups. To find them, one can use methods like visual inspection of the molecular structure, using software programs that identify chiral centers, or performing experiments like X-ray crystallography or NMR spectroscopy.
What is the relationship between the CO2 resonance hybrid structure and its impact on the molecule's properties?
The CO2 molecule has a resonance hybrid structure, which means that it exists as a combination of two different Lewis structures. This resonance hybrid structure affects the molecule's properties by making it linear in shape, nonpolar, and unable to undergo reactions like addition or substitution.
What is a ring shaped molecule?
A ring-shaped molecule is a molecule that connects its ends together to form a closed loop structure. These molecules are also known as cyclic molecules and can exhibit unique properties due to the ring structure, such as increased stability or reactivity compared to their linear counterparts. Examples of ring-shaped molecules include cyclic compounds like cyclohexane or benzene.
What is the monomer or subunit of carbohydrate structure?
The monomer or subunit of carbohydrate structure is a monosaccharide, which is a simple sugar molecule such as glucose, fructose, or galactose. These monosaccharides can combine to form larger carbohydrates like disaccharides (e.g., sucrose) and polysaccharides (e.g., starch).
What is the structure of a carbohydrate molecule?
The structure of a carbohydrate is lipids and proteinnuuu ur wrong lipids and proteins are other types of organic molecules...carbs are made of carbon, hydrogen, and oxygen, in the ratio of 1:2:1.The basic structure of a carbohydrate is of the equation CH2O being repeated into rings. These carbohydrate rings quantitatively label what sort of carbohydrate is present. Example monosaccarides, disaccarides, oligosaccarides, and polysaccharides.
The backbone of carbon in a carbohydrate comes from?
The backbone of carbon in a carbohydrate comes from simple sugar molecules like glucose. These sugar molecules link together in chains to form the structure of a carbohydrate.
Is cellulase a carbohydrate or a protein?
Cellulase is an enzyme that break down celluse a complex organic molecule into simpler molecule like glucose and as such being an enzyme, it is also protein in nature.
What polymer acts as an energy storage molecule?
Polymer glycogen acts as an energy storage molecule in animals, while polymer starch fulfills this function in plants. Both polymers consist of glucose monomers linked together in a chain-like structure, allowing for quick breakdown and release of energy when needed.
What is a chain like molecule that helps determine the structure of plants?
Cellulose is a chain-like molecule that helps determine the structure of plants. It is a major component of cell walls in plants and provides structural support to the plant cells.
How can one determine the presence of chiral centers in a molecule and what methods can be used to find them?
Chiral centers in a molecule can be determined by looking for carbon atoms bonded to four different groups. To find them, one can use methods like visual inspection of the molecular structure, using software programs that identify chiral centers, or performing experiments like X-ray crystallography or NMR spectroscopy.
What is the relationship between the CO2 resonance hybrid structure and its impact on the molecule's properties?
The CO2 molecule has a resonance hybrid structure, which means that it exists as a combination of two different Lewis structures. This resonance hybrid structure affects the molecule's properties by making it linear in shape, nonpolar, and unable to undergo reactions like addition or substitution.
What is a ring shaped molecule?
A ring-shaped molecule is a molecule that connects its ends together to form a closed loop structure. These molecules are also known as cyclic molecules and can exhibit unique properties due to the ring structure, such as increased stability or reactivity compared to their linear counterparts. Examples of ring-shaped molecules include cyclic compounds like cyclohexane or benzene.
Which shows a isomer of the molecule below?
It's the one that looks like a frying pan. Screenshot below.
What is a nano structure?
as the name implies its the study of a structure in nanometes every molecule and atom has structure when referring to nano it means analysing the structure on a nano scale like we see water as fluid but on a nanoscale u see 2 elements 2 hydrogen and 1 oxygen molecule nano structure is basically studying molecules on the nano scale :)
What does an ATP molecule look like and what is its structure?
An ATP molecule is made up of three components: a sugar molecule called ribose, a nitrogenous base called adenine, and three phosphate groups. The structure of an ATP molecule is a chain of these components linked together. The phosphate groups are attached to the ribose sugar, with the adenine base at one end. This structure allows ATP to store and release energy for cellular processes.
