That's not a question, it's an order. And do your own homework. I'll give you a hint to get you started: the number of protons in each isotope is going to be "1".
All hydrogen isotopes have a proton and an electron; the number of neutrons is different.
Isotopes of hydrogen are Hydrogen-1 (protium), ‎Hydrogen-2 (deuterium), ‎and Hydrogen-3 (tritium).
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).
Isotopes have the same atomic number and different mass. This difference is due to different number of neutrons in them. That is why the mass of chlorine comes to be 35.5, a fraction.
'ISOTOPES'. The definitive statement is ' Isotopes of the same element have a different number of neutrons'. NB Do NOT confuse with 'Allotropes' . Allotropes of the same element exhibit different physical characteristics. The elements Sulphur and Phosphorus are the two classic examples of allotropes.
All hydrogen isotopes have a proton and an electron; the number of neutrons is different.
Isotopes have different number of neutrons, in the given isotopes, there are 0 and 1 neutrons respectively.
The isotopes of hydrogen are all hydrogen. They have the same number of protons, or atomic number, which is unique to each element.
Same number of protons, different number of neutrons
Atomic mass and different numbers of neutrons.
Different numbers of neutrons, e.g. deuterium and tritium are isotopes of hydrogen.
Isotopes of hydrogen are Hydrogen-1 (protium), ‎Hydrogen-2 (deuterium), ‎and Hydrogen-3 (tritium).
hydrogen, deuterium, and tritium.
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.
Hydrogen-1 and hydrogen-2 isotopes are radioactively stable.
The isotopes are different because of the different number of neutrons present in them. The isotopes are protium (1H) with zero neutrons, deuterium (2H) with one neutron, and tritium (3H) with two neutrons.
When different isotopes of hydrogen fuse in the sun, they produce helium nuclei. Specifically, the fusion process in the sun involves the conversion of hydrogen isotopes, such as deuterium and tritium, into helium-4 nuclei, along with the release of energy in the form of gamma rays and solar radiation.