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Which parts of the single-celled algae are responsible for capturing energy?
In single-celled algae, organelles called chloroplasts are responsible for capturing energy from sunlight through the process of photosynthesis. These chloroplasts contain pigments like chlorophyll that absorb light energy and convert it into chemical energy in the form of glucose.
Which of the single-celled algae are responsible for capturing energy?
The parts of the single-celled algae that are responsible for capturing energy are chloroplasts. Chloroplasts have to be there in order for cells to capture energy.
What are called monomers?
Monomer is a single molecule.
What part of the single-celled algae are responsible for capturing energy?
Chlorophyll is responsible for capturing energy from the sun in all plants
What parts of the single-celled algae are responsible for capturing energy?
Chlorophyll is responsible for capturing energy from the sun in all plants
What chemical bond is responsible for holding a single water molecule together?
the hydrogen - oxygen bond.
What part of the single celled algae are responsible for capturing energy?
Chlorophyll is responsible for capturing energy from the sun in all plants
2 or more atoms that act as a single particale are called?
molecule
Why is it efficent for cells to keep only small supply of ATP on hand?
A single molecule energy of the sugar glucose stores more than 90 times the chemical energy of a molecule of ATP.
Why is it efficient for cell to keep only small supply of ATP on hand?
A single molecule energy of the sugar glucose stores more than 90 times the chemical energy of a molecule of ATP.
Single sugar molecule?
A single sugar molecule is a simple carbohydrate composed of carbon, hydrogen, and oxygen atoms. Common examples include glucose and fructose. These molecules are the building blocks of more complex carbohydrates and provide energy to the body.
What is the process for conducting a single point energy calculation in computational chemistry?
To conduct a single point energy calculation in computational chemistry, first, the molecular geometry of the molecule is optimized using a suitable method. Then, the electronic structure of the molecule is calculated at this optimized geometry to obtain the total energy of the system. This calculation involves solving the Schrdinger equation using quantum mechanical methods such as Hartree-Fock or density functional theory. The resulting energy value represents the potential energy of the molecule at that specific geometry, known as the single point energy.
