By 'atomic bonds' I assume you mean bonds between atoms. This is really a Chemistry question, but it can be stated that some chemical reactions do produce energy in the form of heat, these are called exothermic reactions, the end result being a new molecule formed from the atoms concerned. See Wikipedia for 'Covalent Bonding'.
In a bonding molecular orbital, the potential energy decreases as the bond forms between two atomic orbitals, resulting in a stable, lower-energy state compared to the individual atomic orbitals. In an antibonding molecular orbital, the potential energy increases as the two atomic orbitals interact, leading to a higher-energy, less stable configuration due to destructive interference between the atomic orbitals.
No, a quantum is the smallest discrete unit of energy that can be emitted or absorbed in the form of electromagnetic radiation. It is a fundamental concept in quantum mechanics that explains the behavior of particles at the atomic and subatomic levels.
outer energy level electrons... called valence electrons
Radiation is emitted from radioactive substances due to the spontaneous decay of unstable atomic nuclei. This decay process releases energy in the form of particles or electromagnetic waves, which are collectively referred to as radiation.
Energy levels produce distinct, quantized amounts of energy that electrons can occupy in an atom. These energy levels determine the electron's distance from the nucleus and influence chemical reactivity and bonding. When electrons move between energy levels, energy is absorbed or emitted in the form of photons.
An atomic battery is a device which converts the energy of particles emitted from atomic nuclei into electrical energy.
Radiation
In a bonding molecular orbital, the potential energy decreases as the bond forms between two atomic orbitals, resulting in a stable, lower-energy state compared to the individual atomic orbitals. In an antibonding molecular orbital, the potential energy increases as the two atomic orbitals interact, leading to a higher-energy, less stable configuration due to destructive interference between the atomic orbitals.
No, a quantum is the smallest discrete unit of energy that can be emitted or absorbed in the form of electromagnetic radiation. It is a fundamental concept in quantum mechanics that explains the behavior of particles at the atomic and subatomic levels.
outer energy level electrons... called valence electrons
Electrons in a bonding orbital have lower energy levels than the average energy of a valence electrons in the isolated atoms between which the orbital is formed. Antibonding orbitals do not meet this criterion, so that anitbonding orbitals can be stable only in conjunction with bonding orbitals, whereas bonding orbitals can be formed without any accompanying antibonding orbitals.The molecular orbitals which is formed by the addition of atomic orbitals is called bonding molecular orbitals.The molecular orbitals which is formed by the subtraction of atomic orbitals is called antibonding molecular orbitals.
no
The lattice energy of potassium bromide is more exothermic than that of rubidium iodide because potassium and bromine have smaller atomic sizes and higher charges, which leads to stronger ionic bonding in potassium bromide. Rubidium and iodine have larger atomic sizes and lower charges, resulting in weaker ionic bonding in rubidium iodide. The stronger ionic bonding in potassium bromide requires more energy to break, resulting in a more exothermic lattice energy.
Radiation is emitted from radioactive substances due to the spontaneous decay of unstable atomic nuclei. This decay process releases energy in the form of particles or electromagnetic waves, which are collectively referred to as radiation.
Bonding molecular orbital Its energy is less than that of parent atomic orbital.It is more stable than the parent atomic orbital.In B.M.O, the probability of finding electrons is maximum.Contribution of B.M.O is maximum towards the shape of molecule.Anti-bondingmolecular orbital Its energy is greater than that of parent atomic orbital.It is less stable than the parent atomic orbital.In A.B.M.O, the probability of finding electrons is minimum.It does not contribute towards the shape of molecule.
Energy levels produce distinct, quantized amounts of energy that electrons can occupy in an atom. These energy levels determine the electron's distance from the nucleus and influence chemical reactivity and bonding. When electrons move between energy levels, energy is absorbed or emitted in the form of photons.
X-rays are not emitted during atomic transitions. Instead, atomic transitions typically emit photons in the visible, ultraviolet, or infrared regions of the electromagnetic spectrum.