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What is the difference between chemical reation and nuclear reation?
Chemical reactions involve the breaking and forming of chemical bonds between atoms to create new substances, while nuclear reactions involve the changes in the nucleus of an atom, resulting in the formation of different isotopes or elements. Chemical reactions typically involve changes in electron distribution, whereas nuclear reactions involve changes in the structure of the atom's nucleus. Additionally, nuclear reactions release much larger amounts of energy compared to chemical reactions.
What separates a chemical reaction from a nuclear reaction?
In a nuclear reaction, the nucleus of an atom undergoes a change. Common examples would be alpha decay, beta decay, fusion, and fusion. In each of those cases, different elements are formed in the process. This never happens in ordinary chemical reactions. In chemical reactions, it is the electrons that are involved , not the nucleus of the atom.
Which reaction releases the most energy physical nuclear or chemical?
Nuclear reactions release significantly more energy than chemical reactions. Nuclear reactions involve changes in the nucleus of an atom and release energy from the strong nuclear force. In contrast, chemical reactions involve changes in the electron configuration of atoms and release energy from the weaker electromagnetic force.
What is the similarity between nuclear and chemical reaction?
Both nuclear and chemical reactions involve a change in the arrangement of atoms in a substance, resulting in the formation of new products. Additionally, both types of reactions involve the release or absorption of energy in the form of heat or light.
What particles are involved in nuclear reactions but not in chemical reactions?
Neutrons and protons are involved in nuclear reactions because they reside in the nucleus of an atom. In contrast, electrons are involved in chemical reactions as they participate in forming chemical bonds between atoms.
What is the difference between a nuclear decay from a chemical reaction?
Nuclear decay involves the contents of the atomic nucleus, the protons and neutrons. Chemical reactions involve the electrons.
What is the most important characteristic of a nuclear reaction?
Nuclear reactions involve the reaction of nuclei and does not involve transfer of electron as in regular chemical reactions.
Why do you think protons do not anticipate in the chemical bondings?
Protons are found inside the nucleus of an atom and requires very high energy for nuclear reactions. Chemical reactions generally involve the valence electrons.
What is the difference between chemical reation and nuclear reation?
Chemical reactions involve the breaking and forming of chemical bonds between atoms to create new substances, while nuclear reactions involve the changes in the nucleus of an atom, resulting in the formation of different isotopes or elements. Chemical reactions typically involve changes in electron distribution, whereas nuclear reactions involve changes in the structure of the atom's nucleus. Additionally, nuclear reactions release much larger amounts of energy compared to chemical reactions.
What separates a chemical reaction from a nuclear reaction?
In a nuclear reaction, the nucleus of an atom undergoes a change. Common examples would be alpha decay, beta decay, fusion, and fusion. In each of those cases, different elements are formed in the process. This never happens in ordinary chemical reactions. In chemical reactions, it is the electrons that are involved , not the nucleus of the atom.
What do nuclear energy and chemical energy have in common?
Nuclear energy and chemical energy both involve potential energy stored within particles or bonds. However, nuclear energy involves changes in the nucleus of an atom (nuclear reactions), while chemical energy involves changes in the arrangement of atoms and electrons in molecules (chemical reactions).
Is oxidation nuclear?
No, its chemical.nuclear reactions involve changes in only the configuration of the nucleuschemical reactions involve changes in only the configuration of valence electrons
Which reaction releases the most energy physical nuclear or chemical?
Nuclear reactions release significantly more energy than chemical reactions. Nuclear reactions involve changes in the nucleus of an atom and release energy from the strong nuclear force. In contrast, chemical reactions involve changes in the electron configuration of atoms and release energy from the weaker electromagnetic force.
What is the similarity between nuclear and chemical reaction?
Both nuclear and chemical reactions involve a change in the arrangement of atoms in a substance, resulting in the formation of new products. Additionally, both types of reactions involve the release or absorption of energy in the form of heat or light.
Why did the protons did not participate during chemical bonding?
Chemical bonding only involves the outermost level of electrons, valence electrons. The actual reaction takes place far away from the nucleus of the atom where the protons are. There are reactions that involve the protons, though, but they are nuclear reactions, not chemical reactions. They are usually achieved through high-speed collision in labs.
Which part of an atom plays a major role in chemical reactions?
Chemical reactions are a result of valence electron transfer and/or sharing. Valence electrons are located in the outer-most orbitals of the reactant elements. In a sense, though, you could say protons are also involved in chemical reactions. Although an element will never donate, accept, or share protons in a CHEMICAL reaction, they are part of the determination in an elements reactivity. Reactions that do involve protons are termed "nuclear reactions," and are not chemical reactions. In fact, a lot of the methods used to determine chemical reactions -- such as enthalpy -- cannot even be applied to nuclear reactions. Neutrons, like protons are involved in nuclear reactions, but never in chemical reactions. Hope this helps!
What involve a chemical chemical change?
Chemical reactions involve a change in the chemical composition of the reacting substances.
