Isotopes are different forms of the element (they are therefore still elements).
For example - Carbon has 15 known isotopes, the stable ones being 12C and 13C.
All isotopes for the same element have the same number of protons, but a different number of neutrons. This means isotopes have different properties, such as different weights - but are all still the same element.
Iron, Hydrogen and Carbon are all examples of elements. Each element has a distinct atomic number, which is the number of protons in the nucleus of the atoms of that element. Protons are defined as subatomic (smaller than an atom) particles with a positive charge of +1. All Hydrogen atoms have 1 proton, all Carbon atoms have 6 protons.
Another particle found in the nucleus of an atom is the neutron. It has no charge. The number of these can vary for an element, but doesn't change the chemical behaviour of the element. It does change the nuclear behaviour though. The number of neutrons in a nucleus affects its stability. The different numbers of neutrons in the nucleus determine the isotope of that element.
Some isotopes are more common than others. Hydrogen has three naturally occurring isotopes. They are known as Protium, Deuterium and Tritium, and have 0, 1 and 2 neutrons respectively. The most common is Protium.
Because neutrons have mass, the Atomic Mass of an element (the mass of the atom) varies for each isotope. The average atomic mass takes into account the naturally occurring proportion of each isotope.
An isotope of an element has a different number of protons from the original element. For example, Carbon-12 is the "parent" element, and Carbon-14 is a common isotope. Carbon-14 has two more neutrons than Carbon-12, however the number of protons stays constant. The number of neutrons and electrons can differ within an element to give isotopes(different number of neutrons) and ions(different number of electrons). However, the number of protons must always stay the same, it defines an element. Carbon-14 is an isotope with two more neutrons. The element with 14 electrons is silicon.
An isotope is one form of an element. All of the atoms of the same element have the same number of protons, but the different isotopes will differ in the number of neutrons, which also causes a difference in mass number.
an element is on the Periodic Table but isotopes are atoms with the same number of of neutrons from other atoms of the same element.
isotope effect occurs when there is a difference in the rate of reaction when an atom is replaced by an isotope.
No, never. An isotope has to do with the nucleus of the atom.
an isotope of an element
Neutron
No, it is a compound. If you read the definitions of isotope and compounds, the difference should become quite clear.No, it is a compound. If you read the definitions of isotope and compounds, the difference should become quite clear.No, it is a compound. If you read the definitions of isotope and compounds, the difference should become quite clear.No, it is a compound. If you read the definitions of isotope and compounds, the difference should become quite clear.
isotope effect occurs when there is a difference in the rate of reaction when an atom is replaced by an isotope.
It is an isotope of a neutral atom.
No, never. An isotope has to do with the nucleus of the atom.
Yes, they usually are; being an isotope does not change the chemistry of the atom.
An alumimium atom is electrically neutral and it is an isotope of aluminum.
an isotope of an element
Isotopes: atoms with the same atomic number (also identical number of protons and electrons) but with a different number of neutrons and consequently with a different atomic mass.An isotope is an atom; the atom has not isotopes but an element has isotopes (natural or artificial).
NOTHING...?:3 Sorry but you draw them the same
An isotope shares the atomic number with its element atom. How does it differ from the element atom?
The answer to how many neutrons an atom of an isotope has is always the difference between the mass number of the isotope and the atomic number of the element. The atomic number of krypton is 36. Therefore, an atom of krypton-82 has 46 neutrons.
Neutron
An isotope of a chemical element is an atom that has the same number of protons (this also means this atom has the same atomic number) and electrons, but has a different numbers on neutrons. The isotope is radioactive if it has too many neutrons in the nucleus and because of this the isotope is unstable. The half-life of a radioactive isotope is a time period. When the isotope is at the end of the period it's weight will be the half of the starter weight.