Yes, chemically they are alike (more correct is to say that the differences are not significant).
There are three isotopes of carbon with mass numbers 12 (which is more than 99% of existing carbon), 13, and 14 (which is radioactive).
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.
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).
The fundamental particle responsible for isotopes is the neutron. As such, different isotopes of the same element have the same atomic number (since the protons never change), but have a different atomic weight/mass dependent on the differing number of neutrons in the atom's nucleus.For instance, the element carbon has 6 protons (a different number of protons would yield a different element); therefore, carbon has an atomic number of 6. However, there are 15 known isotopes of carbon that all have a different number of neutrons and thus a different atomic weight. Of those 15 isotopes, only three occur naturally, so let's use these in the example. These three naturally-occurring isotopes are carbon 12, carbon 13 and carbon 14 (the numbers represent the isotope's atomic weight). These isotopes have 6, 7 and 8 neutrons, respectively, paired with the 6 protons in the nucleus.protons: 6+neutrons: 6------------------------------Carbon 12 (6 + 6 = 12)protons: 6+neutrons: 7------------------------------Carbon 13 (6 + 7 = 13)protons: 6+neutrons: 8------------------------------Carbon 14 (6 + 8 = 14)
Carbon-12 (98.93%), Carbon-13 (1.07%), and Carbon-14 (1 PPT) all occur naturally. However, Carbon-14 is radioactive (halflife 5,730±40 years) and is being produced only high in the atmosphere by bombardment of nitrogen gas by cosmic rays.
isotopes of carbon are atomic no. 6 mass 12 , atomic no.6 mass 13 , atomic no. 6 mass 14
Carbon is available in three isotopes, C12, C13 and C14. C12 is the most common.
There are three isotopes of carbon with mass numbers 12 (which is more than 99% of existing carbon), 13, and 14 (which is radioactive).
Isotopes have the same number of protons but a different number of neutrons. Different isotopes of a single element are on the same position on the periodic table of elements. The existence of isotopes was first suggested in 1913 by a radiochemist named Frederick Soddy.
either allotropes, isotopes, nanotubes or polymers either allotropes, isotopes, nanotubes or polymers
There are three natural 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.
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).
its is a bigraphic chemical within the industrialization between the crystalyzation of the neutrons chemically reacting with protons.
The fundamental particle responsible for isotopes is the neutron. As such, different isotopes of the same element have the same atomic number (since the protons never change), but have a different atomic weight/mass dependent on the differing number of neutrons in the atom's nucleus.For instance, the element carbon has 6 protons (a different number of protons would yield a different element); therefore, carbon has an atomic number of 6. However, there are 15 known isotopes of carbon that all have a different number of neutrons and thus a different atomic weight. Of those 15 isotopes, only three occur naturally, so let's use these in the example. These three naturally-occurring isotopes are carbon 12, carbon 13 and carbon 14 (the numbers represent the isotope's atomic weight). These isotopes have 6, 7 and 8 neutrons, respectively, paired with the 6 protons in the nucleus.protons: 6+neutrons: 6------------------------------Carbon 12 (6 + 6 = 12)protons: 6+neutrons: 7------------------------------Carbon 13 (6 + 7 = 13)protons: 6+neutrons: 8------------------------------Carbon 14 (6 + 8 = 14)
Hydrogen has three isotopes
Carbon-12 (98.93%), Carbon-13 (1.07%), and Carbon-14 (1 PPT) all occur naturally. However, Carbon-14 is radioactive (halflife 5,730±40 years) and is being produced only high in the atmosphere by bombardment of nitrogen gas by cosmic rays.