One element can change to another through nuclear reactions such as fusion or fission, in which the nucleus of an atom is altered by combining or splitting apart with other atoms. These nuclear reactions involve a change in the number of protons and neutrons in the nucleus, leading to the transformation of one element into another.
An element will change into another element if the number of protons in its nucleus changes. This can not be done by ordinary chemical means (heating, mixing, etc.). Element change occurs naturally by radioactive elements. For example, radioactive Uranium naturally spits out two protons and two neutrons (called alpha radiation) and changes into Thorium. (The neutron number does not effect what element something is).
Yes, elements can change, but it takes either nuclear fusion (addition of protons) or nuclear decay (loss of protons) for this to happen. Both processes involve the absorption then radiation of a great deal of energy and can be quite dangerous to be around. Nuclear fusion is the process by which the sun radiates thermal energy to the Earth - hydrogen atoms are being fused into helium and other heavier elements. Nuclear decay is the process by which radioactive materials decay into nonradioactive materials.
In a displacement reaction, one element replaces another element in a compound. The particles rearrange themselves into new molecules or compounds, resulting in the displacement of one element by another. This change can involve the transfer of electrons or bonding between atoms to form new substances.
One element takes the place of another in a compound.
An atom of one element can change to an atom of another element through nuclear reactions such as nuclear fusion, nuclear fission, or radioactive decay. During these processes, the atomic structure of the original element is altered to produce a new element with a different number of protons.
The element transforms itself into another element because each element have a specific number of protons. If the number of protons changes, the element changes as well. The number of protons in an atom defines it elemental identity, so if the number of protons in an element increases by one it becomes another element. Although this reference doesn't really provide a direct answer, it does provide additional information that might be of interest: http://www.answers.com/topic/proton
True. A change in oxidation number occurs when there is a transfer of electrons from one atom to another, leading to a change in the oxidation state of an element in a chemical compound.
No. Melting does not change one element into another.
to make one element a different element, all you need to do is have a different number of protons
That would be radioactive decay.
No.
It's called transmutation. There are two types of transmutation. Natural transmutation is when an element naturally changes into another element. Artificial transmutation is when an element is forced to change into another element, usually done in a laboratory setting.
because that's what it takes to change one element to another, a change to the nucleus.
answer TRANSMUTATION
In a displacement reaction, one element replaces another element in a compound. The particles rearrange themselves into new molecules or compounds, resulting in the displacement of one element by another. This change can involve the transfer of electrons or bonding between atoms to form new substances.
Hydrogen (as isotopes deuterium and tritium) would change into helium
Yes, changing the number of protons in an atom results in a different element because the number of protons determines the element's identity on the periodic table. This change alters the atomic number, which defines the element's chemical properties.
Yes, heat can be required to change one element into another through processes like nuclear fusion or nuclear fission. These processes involve high temperatures to induce the necessary reactions for transformation.
During chemical reactions atoms remain unchanged.