The dissociation of a compound is when a molecular compound, for example: HCl(g) is broken apart to give H+ and Cl- ions when it is dissolved in water. Example the dissociation of compound HCl(g): HCl(g) --(H2O)--> H+ (aq) + Cl-(aq)
Radiation is typically emitted from an energy source. Ionizing radiation means that the radiation has enough energy to bond to an atom. This causes the atom to become charged.
energy and power are not made they are converted into other forms of energy or stored as chemical bond
algae
Anytime a chemical bond is broken energy is produced. ATP having a volatile Triphosphate bond allows for the third phosphate molecule to be easily removed and produce energy.
Stability
yes
The energy needed to break a bond between two atoms is the called the bond energy. The SI units for bond energy are kJ/mol.
yes
The energy required to break a chemical bond and form neutral isolated atoms is called bond energy.
That energy is trapped in the bond. The bond energy is called bond enthalpy and is available in tables on the internet. Energy is required to break a bond but released when bonds form. If the sum of the reactant bond energy is less than the sum of the product bond energy then energy will be released in the chemical reaction.
The strength of the bond increases as the bond dissociation energy increases.
bond energy or bond dissociation energy is relative to bond length and therefore the amount of electrons involved in the bond so figure that out and i believe you'll have your answer
No. O-H bond energy is larger
When a chemical bond forms, energy is absorbed between the atoms that bond. When a chemical bond is broken, energy is immediately and dramatically released.
The amount of energy required to break a bond and produce neutral atoms is called the bond energy. It harbors the energy.
Enthalpy is the measurement of total energy change of a reaction. The energy of bond formation and bond breaking can be used to calculate the bond enthalpy of the reaction. Bond enthalpy is the enthalphy change when 1 mol of bond is broken. Therefore the general equation to calculate the enthalpy change is energy of bond broken subtract by energy of bond formation.