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Nuclear energy is energy obtained from changes within atomic nuclei. When light atoms combine to form heavier atoms (for example, deuterium is converted to helium), it is called "fusion". When heavy atoms (for example, uranium-235) split, it is called "fission".Nuclear energy is energy obtained from changes within atomic nuclei. When light atoms combine to form heavier atoms (for example, deuterium is converted to helium), it is called "fusion". When heavy atoms (for example, uranium-235) split, it is called "fission".Nuclear energy is energy obtained from changes within atomic nuclei. When light atoms combine to form heavier atoms (for example, deuterium is converted to helium), it is called "fusion". When heavy atoms (for example, uranium-235) split, it is called "fission".Nuclear energy is energy obtained from changes within atomic nuclei. When light atoms combine to form heavier atoms (for example, deuterium is converted to helium), it is called "fusion". When heavy atoms (for example, uranium-235) split, it is called "fission".
Assuming you mean changes of state i.e. solid to liquid, then if energy is supplied to matter then the particles or atoms move faster as they gain kinetic energy. This causes the bonds between the atoms to break, allowing the particles to flow over each other, as in a liquid. Like matter, energy is never created or destroyed in chemical reactions. Or: Every chemical change in matter includes a change in energy.
Such energy is called nuclear energy. There are basically two different variations on this principle. One, light atoms can be combined into heavier atoms (up to a certain point - somewhere around iron). This is known as fusion. The other is that heavy atoms (heavier than iron) can split into lighter atoms.
This is a nuclear change. The atoms change into helium atoms. The loss of mass in the change convert to energy, thousands of times the amount of energy of a chemical change.
They are not similar, as fusion and fission involve changes to the nucleus whereas chemical energy involves the bonds between atoms
chemical energy
nuclear energy
A metallic bond is characterized by overlapping atoms.
Chemical changes involve breaking and forming of bonds between atoms. Chemical energy is required to break bonds. The formation of new bonds releases energy.
A metallic bond is characterized by overlapping atoms.
The type of energy that comes from a compound that changes as it's atoms are rearranged is known as chemical energy.
Nuclear energy is energy obtained from changes within atomic nuclei. When light atoms combine to form heavier atoms (for example, deuterium is converted to helium), it is called "fusion". When heavy atoms (for example, uranium-235) split, it is called "fission".Nuclear energy is energy obtained from changes within atomic nuclei. When light atoms combine to form heavier atoms (for example, deuterium is converted to helium), it is called "fusion". When heavy atoms (for example, uranium-235) split, it is called "fission".Nuclear energy is energy obtained from changes within atomic nuclei. When light atoms combine to form heavier atoms (for example, deuterium is converted to helium), it is called "fusion". When heavy atoms (for example, uranium-235) split, it is called "fission".Nuclear energy is energy obtained from changes within atomic nuclei. When light atoms combine to form heavier atoms (for example, deuterium is converted to helium), it is called "fusion". When heavy atoms (for example, uranium-235) split, it is called "fission".
Nuclear energy is energy obtained from changes within atomic nuclei. When light atoms combine to form heavier atoms (for example, deuterium is converted to helium), it is called "fusion". When heavy atoms (for example, uranium-235) split, it is called "fission".Nuclear energy is energy obtained from changes within atomic nuclei. When light atoms combine to form heavier atoms (for example, deuterium is converted to helium), it is called "fusion". When heavy atoms (for example, uranium-235) split, it is called "fission".Nuclear energy is energy obtained from changes within atomic nuclei. When light atoms combine to form heavier atoms (for example, deuterium is converted to helium), it is called "fusion". When heavy atoms (for example, uranium-235) split, it is called "fission".Nuclear energy is energy obtained from changes within atomic nuclei. When light atoms combine to form heavier atoms (for example, deuterium is converted to helium), it is called "fusion". When heavy atoms (for example, uranium-235) split, it is called "fission".
A element is a unique substance that is composed of atoms having the same atomic number. Energy is the ability to do work.
Such energy is called nuclear energy. There are basically two different variations on this principle. One, light atoms can be combined into heavier atoms (up to a certain point - somewhere around iron). This is known as fusion. The other is that heavy atoms (heavier than iron) can split into lighter atoms.
Assuming you mean changes of state i.e. solid to liquid, then if energy is supplied to matter then the particles or atoms move faster as they gain kinetic energy. This causes the bonds between the atoms to break, allowing the particles to flow over each other, as in a liquid. Like matter, energy is never created or destroyed in chemical reactions. Or: Every chemical change in matter includes a change in energy.
Yes, they are the same atoms, but they have more energy as a liquid, and so don't bond in the same way. Its the bonds between the atoms that changes.