Atoms of the same element have different isotopes, differing only in number of neutrons (so differing in mass number, atomic mass).
Two atoms with the same atomic number but different atomic weight are known as isotopes. Isotopes have the same number of protons and electrons, but a different number of neutrons, resulting in different atomic weights. For example, carbon-12 and carbon-14 are isotopes of carbon with the same atomic number (6) but different atomic weights due to a difference in neutron count.
isotopes
To calculate the atomic weight of fluorine, you need to divide the total mass by the number of atoms. Given that the mass of 8.46 x 10^24 atoms of fluorine is 266.889, you would divide this mass by the number of atoms (8.46 x 10^24) to get the atomic weight of fluorine.
We can find atomic mass and mass number in chemical elements. Atomic mass is about weight of the atom. Mass number is about total of neutrons and protons.
The element with atomic number 10 is neon. Its atomic weight is approximately 20.180 u.
If they have the same atomic number but different mass, then they have a different number of neutrons, and they are called ISOTOPES.
Atoms of the same element can differ in their number of neutrons, which results in different isotopes of the element. Isotopes of an element have the same number of protons and electrons but different numbers of neutrons.
ion
yes. Isotopes of an element have the same number of protons, thus electorns, thus the same chemical properties. Where isotpes differ is in the number of neutrons. Consider hydrogen, atomic number 1, atomic weight 1, 1 proton, 1 electron vs duterium, atomic number 1 atomic weight 2, 1 proton, 1 electron, 1 neutron. H2O = water D2O = heavy water
the atomic number, the atomic weight, the atomic symbol and atomic name.
Not necessarily; the characteristic stated in the question is valid for atoms of equal atomic number, not atomic weight.
You can use atomic weight to calculate the number of atoms in a given sample of an element. # g of sample element x (6.02 x 1023 / atomic weight in grams) = # of atoms
Atoms with the same atomic number (number of protons), but different mass numbers (i.e. different mass) are called isotopes. The difference in mass is due to different numbers of neutrons. For more info: http://en.wikipedia.org/wiki/Isotope
Atoms with the same atomic number are all atoms of the same element. However, if the atoms have different molecular weights, they are isotopes of the same element.
To calculate the atomic weight of fluorine, you need to divide the total mass by the number of atoms. Given that the mass of 8.46 x 10^24 atoms of fluorine is 266.889, you would divide this mass by the number of atoms (8.46 x 10^24) to get the atomic weight of fluorine.
Different isotopes of an element have the same number of protons in the nucleus, giving them the same atomic number, but a different number of neutrons giving each elemental isotope a different atomic weight.
The number of protons in the nuclei of their atoms. This is the atomic number of an element and each element has its own unique atomic number.
Different atomic numbers represent different elements.
Two atoms are isotopes if they have the same number of protons but different numbers of neutrons in their atomic nuclei. This results in atoms of the same element having different atomic masses.