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If two atoms are bonded with a bond energy of 455 kJ what must be done to break the bondAsk us anything?
455 kJ of energy must be added (if it’s wrong I’m sorry)
What else can I help you with?
What happens to the energy level and stability of two bonded atoms when they are separated and become individual atoms?
When two atoms are bonded, they have lower energy and higher stability compared to when they are separated as individual atoms. Breaking the bond requires energy input, leading to higher energy levels and lower stability for the individual atoms.
What is the term for the distance between 2 bonded atoms?
at which potential energy is at a minimuim.
How is the ionization energy of an element defined?
Ionization energy is the energy needed to remove 1 mole of loosely bonded electrons from one mole of atoms or ions.
What is the energy needed to keep at least two atoms held together?
That is an extremely odd way of phrasing it.The energy between two bonded atoms is the bond energy, but it's not the amount of energy required to "keep them held together", it's the energy required to pull them APART.If the atoms aren't bonded, then the force required to keep them together is a function of the distance between them (and the types of atoms they are). The usual approximation is the Lennard-Jones potential, which at the "holding them together" distance is usually described by a twelfth-degree polynomial, but I should stress again that this is an approximation.
Why are most atoms chemically bonded to other atoms in nature?
The correct answer is: Atoms are often more stable when bonded to other atoms
What happens to the energy level and stability of two bonded atoms when they are separated and become individual atoms?
When two atoms are bonded, they have lower energy and higher stability compared to when they are separated as individual atoms. Breaking the bond requires energy input, leading to higher energy levels and lower stability for the individual atoms.
The energy required to completely dissociate two atoms that are covalently bonded together is called?
The energy required to completely dissociate two atoms that are covalently bonded together is called bond dissociation energy.
If two covalently bonded atoms move farther than a distance of the bond length what is the potential energy of the atoms?
If two covalently bonded atoms move farther than the bond length, the potential energy of the atoms will increase. The potential energy is at its minimum when the atoms are at the bond length, and it increases as the atoms move further apart due to the repulsive forces between the electron clouds of the atoms.
What happens to the energy level and stablility of two bonded aroms when they are separated and become individual atoms?
The energy levin increases and the atoms become more unstable
What is the example of a Compound chemistry?
Carbon Dioxide, or anything else with two atoms bonded together
Why do atoms tends to be bonded to other atoms?
The correct answer is: Atoms are often more stable when bonded to other atoms
What is the number of bonded atoms in SF2?
Sulfur difluoride molecule contain 3 atoms.
What is the term for the distance between 2 bonded atoms?
at which potential energy is at a minimuim.
How is the ionization energy of an element defined?
Ionization energy is the energy needed to remove 1 mole of loosely bonded electrons from one mole of atoms or ions.
Is bond formation an energy adsorbing or an energy releasing?
bond formation is an energy releasing process. the chemically bonded atoms are more stable than the separated atoms. gain in stability is always accompanied by a decrease in energy. besides, the opposite process, bond breaking requires energy to break the attraction between the bonded atoms.
What is the energy needed to keep at least two atoms held together?
That is an extremely odd way of phrasing it.The energy between two bonded atoms is the bond energy, but it's not the amount of energy required to "keep them held together", it's the energy required to pull them APART.If the atoms aren't bonded, then the force required to keep them together is a function of the distance between them (and the types of atoms they are). The usual approximation is the Lennard-Jones potential, which at the "holding them together" distance is usually described by a twelfth-degree polynomial, but I should stress again that this is an approximation.
Why are most atoms chemically bonded to other atoms in nature?
The correct answer is: Atoms are often more stable when bonded to other atoms
