The isotopes Sn-116, Sn-118, and Sn-119 of tin (Sn) differ in their mass numbers, which are determined by the total number of protons and neutrons in their nuclei. All three isotopes have 50 protons, as they are isotopes of tin, but they contain different numbers of neutrons: Sn-116 has 66 neutrons, Sn-118 has 68 neutrons, and Sn-119 has 69 neutrons. This variation in neutron count leads to differences in their nuclear stability and radioactive properties, with some isotopes being stable and others being radioactive.
Hydrogen has three isotopes with different names: protium (1H), deuterium (2H), and tritium (3H). Each isotope has a different number of neutrons in its nucleus.
The number of neutrons is different.
That depends on the isotope, as Argon has three different stable isotopes and many different radioactive isotopes.
No the atomic number is same for the three isotopes of hydrogen (it is 1). The three isotopes of hydrogen differ by the number of neutrons.
Isotopes must have the same atomic number, which is the number of protons. The atomic mass, which is the total number of protons and neutrons, varies for the different isotopes. so it should have different mass numbers..
Nitrogen has two stable isotopes: N-14 and N-15 and 14 radioactive isotopes.
That depends on the isotope, as Argon has three different stable isotopes and many different radioactive isotopes.
Hydrogen has three isotopes with different names: protium (1H), deuterium (2H), and tritium (3H). Each isotope has a different number of neutrons in its nucleus.
The number of neutrons is different.
Chlorine (Cl) can have three different values of mass number (isotopes) because it has multiple stable isotopes with different numbers of neutrons. The three isotopes of chlorine are chlorine-35, chlorine-36, and chlorine-37, corresponding to different numbers of neutrons in the nucleus.
There are three natural isotopes.
Chiral isotopes.
That depends on the isotope, as Argon has three different stable isotopes and many different radioactive isotopes.
No the atomic number is same for the three isotopes of hydrogen (it is 1). The three isotopes of hydrogen differ by the number of neutrons.
Isotopes must have the same atomic number, which is the number of protons. The atomic mass, which is the total number of protons and neutrons, varies for the different isotopes. so it should have different mass numbers..
The three main isotopes of niobium are niobium-93, niobium-95, and niobium-96. These isotopes are stable and occur naturally in different abundances. Niobium-93 is the most abundant isotope, followed by niobium-95 and niobium-96.
The three isotopes of hydrogen are called: hydrogen (1H or H, no neutrons), deuterium (2H or D, one neutron), and tritium (3H or T, two neutrons).They each have their own special name to make it easier to refer to them. They are fairly commonly used in chemistry and physics (especially deuterium).