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O=c=o
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Which molecule most likely has the greatest amount fostered energy in its bonds?
Adenosine triphosphate (ATP) is the molecule with the greatest amount of stored energy in its bonds. When ATP is broken down, energy is released for cellular processes.
What molecule most likely has the greatest amount of energy in its bonds?
o=c=o
Which molecule has the greatest amount of stored energy in its bonds?
ATP (adenosine triphosphate) has the greatest amount of stored energy in its bonds among common biological molecules. It serves as the primary energy currency in cells, transferring energy for various cellular processes.
What molecule has the greatest amount of energy stored in its bonds?
O=c=o
Which molecules most likely have the greatest amount of stored energy in its bonds?
Which molecule most likely has the greatest amount of stored energy in its bonds? A. H-O-H B. Fe-O C. O=C=O D. Na-CI Answer is : ( O=C=O )
Which molecule most likely has the greatest amount of stored energy in its bonds?
O=c=o
Where is chemical energy stored in a molecule?
Chemical energy is stored in the bonds between atoms within a molecule. When these bonds are broken during a chemical reaction, energy is either released or absorbed. The type and strength of these bonds determine the amount of potential energy stored in the molecule.
What is the amount of energy stored in a molecule?
The amount of energy stored in a molecule depends on its chemical bonds and structure. This energy is typically measured in units like kilojoules per mole or electron volts. The energy stored in a molecule is released or absorbed during chemical reactions.
Which moleclues holds the greatest amount of potential energy?
Molecules with a high number of carbon-hydrogen bonds, such as those found in fats, hold the greatest amount of potential energy because they have many electrons available for bond formation. This energy can be released through chemical reactions in the body to provide fuel for cellular processes.
How do a bio molecules size and the number of bonds it contains affect the amount of energy that is available?
Energy is released when the bonds holding the atoms together are broken. As the molecule size increases, so does the number chemical bonds needed to hold the structure together. These bonds contain energy, which enables the molecule to work. Lipids store a lot of energy.
What specifically determines how much energy is available in a molecule?
The amount of energy available in a molecule is primarily determined by its chemical bonds and the types of atoms it contains. Stronger bonds, such as triple bonds, typically store more energy than weaker bonds, like single bonds. Additionally, the arrangement of atoms and the presence of functional groups can influence the molecule's stability and reactivity, affecting energy release during chemical reactions. Overall, the molecular structure and bonding characteristics dictate the energy stored within the molecule.
Where is the energy in a sucrose molecule store?
The energy in a sucrose molecule is stored in the interatomic bonds such as the carbon-oxygen bonds and the oxygen-hydrogen bonds.
