I believe all atomic bonds contain energy. Some more than others (especially double bonds).
Energy is held in a molecule in several ways:translational energy - the kinetic energy of the molecule depending on its mass and velocityrotational energy - the energy of the spinning of the moleculevibrational energy - the energy of the atoms of the molecule vibrating closer and further from one another - stretching and compressing the bonds. The flexing/bending of the bonds is a special case of this. Of course there is energy in the bonds themselves which when broken can be a source of energy and when formed store energynuclear energy - the binding energies in the nucleus of each atom. Unless you are looking at nuclear decay or some other kind of nuclear reaction, this is not normally an energy you consider when thinking about energy held in a molecule
The potential energy stored in the bonds of the phosphates provides the energy for DNA synthesis.
A molecule hat energy in form that can be used for molecule contractions
Chemical energy is stored in form of bonds
All cells use chemical energy. Chemical energy is the energy stored in the bonds between atoms of every molecule.
The energy in a sucrose molecule is stored in the interatomic bonds such as the carbon-oxygen bonds and the oxygen-hydrogen bonds.
The energy in a sucrose molecule is stored in the interatomic bonds such as the carbon-oxygen bonds and the oxygen-hydrogen bonds.
when you break the bonds of the glucose molecule you get energy.
In the chemical bonds that like their bonds.
Energy stored in molecular bonds
in its bonds
In chemical bonds In chemical bonds
In chemical bonds In chemical bonds
The bonds holding the molecule together are made of energy, when these bonds are broken, the energy holding the molecule together is released.
The energy in a sucrose molecule is stored in the interatomic bonds such as the carbon-oxygen bonds and the oxygen-hydrogen bonds.
O=c=o has the greatest amount of energy stored in its bonds.
The energy that is released during cellular respiration comes from chemical bonds. When these bonds are broken, free energy is released.Much of this energy is lost as heat, but some is trapped in new bonds, especially in the molecule ATP. Each time a large packet of energy is released during respiration, the cell synthesizes a molecule of ATP.The cell needs a high-energy chemical compound to start with, just as a car needs a high-energy fuel in the tank. One such compound is glucose, which has a significant amount of energy in its bonds. That energy got there when a plant trapped some light energy and used it to synthesize sugar from simpler compounds.Other high-energy compounds, such as glycogen and fats (lipids) can be used for cellular respiration. They are converted to glucose (in the case of glycogen and some other polysaccharides) or to some other compound in the respiration pathway.