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When covalent bonds are broken energy is released?
Breaking covalent bonds requires input of energy, not the release of energy. When covalent bonds are broken, energy is absorbed by the molecules involved in the process.
Why does the process of bond breaking require energy?
The process of bond breaking requires energy because bonds hold atoms together in a stable arrangement. Breaking these bonds requires energy to overcome the attractive forces between the atoms.
Does the process of bond breaking release energy?
Yes, the process of bond breaking requires energy input, not release.
Why covalent bonds are hard to break?
Covalent bonds are hard to break because they involve the sharing of electrons between atoms, creating a strong bond. The electrons are held tightly between the atoms, resulting in a stable molecular structure. Breaking a covalent bond requires significant energy input to overcome the forces holding the shared electrons in place.
Why is a lot of energy needed to produce free carbon atoms from solid carbon?
A lot of energy is needed to produce free carbon atoms from solid carbon because breaking the strong covalent bonds holding the carbon atoms together in a solid structure requires a significant amount of energy. This process involves overcoming the forces of attraction between atoms and disrupting the orderly arrangement of the solid, which requires breaking multiple bonds and rearranging atoms into a different form.
When covalent bonds are broken energy is released?
Breaking covalent bonds requires input of energy, not the release of energy. When covalent bonds are broken, energy is absorbed by the molecules involved in the process.
Why does the process of bond breaking require energy?
The process of bond breaking requires energy because bonds hold atoms together in a stable arrangement. Breaking these bonds requires energy to overcome the attractive forces between the atoms.
Does the process of bond breaking release energy?
Yes, the process of bond breaking requires energy input, not release.
What does breaking the outer phosohate bond of ATP do?
It requires energy.
Why covalent bonds are hard to break?
Covalent bonds are hard to break because they involve the sharing of electrons between atoms, creating a strong bond. The electrons are held tightly between the atoms, resulting in a stable molecular structure. Breaking a covalent bond requires significant energy input to overcome the forces holding the shared electrons in place.
Why is a lot of energy needed to produce free carbon atoms from solid carbon?
A lot of energy is needed to produce free carbon atoms from solid carbon because breaking the strong covalent bonds holding the carbon atoms together in a solid structure requires a significant amount of energy. This process involves overcoming the forces of attraction between atoms and disrupting the orderly arrangement of the solid, which requires breaking multiple bonds and rearranging atoms into a different form.
Is bond breaking endothermic?
Yes, bond breaking is typically endothermic, meaning it requires energy input to break bonds.
Is the process of breaking bonds endothermic or exothermic?
The process of breaking bonds is endothermic, meaning it requires energy input to break the bonds.
A higher bond dissociation energy means the covalent bond is?
It means bond is very stable or strong.
What Breaking down food to get energy requires that help chemical reactions take place.?
Catalysts
Why is a large amount of energy needed to convert solid diamond into a gas?
Converting solid diamond into a gas requires breaking strong covalent bonds that hold the diamond lattice structure together. This process involves overcoming the strong bonds between carbon atoms, which requires a significant input of energy. Additionally, the high melting point and density of diamond contribute to the amount of energy needed for this conversion.
Does making chemical bonds release or require energy?
Forming chemical bonds releases energy because it involves a decrease in potential energy as atoms move closer together to form more stable configurations. Breaking bonds, on the other hand, requires energy input to overcome the attraction between atoms.
