Atoms of same element with same atomic number,which have different mass number is called isotops.
element vs isotopes
Isotopes are forms of the same element that differ in Neutrons.
Differences between uranium isotopes: natural isotopes (U-234, U-235, U-238) and the artificial isotopes; differences in atomic mass; differences in the number of neutrons; differences of the half life; differences in the emitted radiations (type, energy, percentage); differences in the decay chain; differences in the technological importance; etc.
Yes, butane does have isotopes. The most common isotopes of butane are carbon-12 and carbon-13. Isotopes of butane can have varying masses due to differences in the number of neutrons in the nucleus.
Isotopes of an element have the same number of protons but different numbers of neutrons. This results in differences in atomic mass and stability. Isotopes may have different physical properties, such as melting point and boiling point, as well as different chemical behaviors.
All the isotopes of a chemical element are identical; some differences exist for light elements (ex. H or D).
No, there are differences in chemical properties of different isotopes of the same element. For instance, certain isotopes will be radioactive while other isotopes will be stable and nonradioactive. Also, the different isotopes of hydrogen are significantly different depending on the number of neutrons present.
Absolutely correctly speaking the density of different isotopes are not identical; but the differences are very small, especially for heavy isotopes.
Deuterium (D), Tritium(T), and Protium Each having differences.
Deuterium (D), Tritium(T), and Protium Each having differences.
Yes, the differences in properties between diamond and graphite can be explained by the existence of isotopes. Isotopes are atoms of the same element with different numbers of neutrons, which can affect the atomic structure and bonding in materials. In the case of diamond and graphite, the arrangement of carbon atoms and the bonding configuration due to isotopes lead to their distinct properties.
The ionization energy of isotopes is the same because isotopes have the same number of protons in their nucleus, which determines the ionization energy. Isotopes differ in the number of neutrons they possess, but neutrons do not contribute significantly to the ionization energy compared to protons.