Silver hastwo stable isotopes107Ag and 109Ag. 107Ag is the more abundant stable isotope. 28 radioisotopes have been characterized.
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Isotopes. They differ in the number of neutrons in the nucleus.
Silver has the atomic number (number of protons) 47; two stable isotopes are 107Ag and 109 Ag. Those would have 107 - 47 = 60, and 109 - 47 = 62 neutrons, respectively. 107Ag is more abundant, but the difference in abundance is not much; natural silver contains about the same amount of both isotopes.Silver has the atomic number (number of protons) 47; two stable isotopes are 107Ag and 109 Ag. Those would have 107 - 47 = 60, and 109 - 47 = 62 neutrons, respectively. 107Ag is more abundant, but the difference in abundance is not much; natural silver contains about the same amount of both isotopes.Silver has the atomic number (number of protons) 47; two stable isotopes are 107Ag and 109 Ag. Those would have 107 - 47 = 60, and 109 - 47 = 62 neutrons, respectively. 107Ag is more abundant, but the difference in abundance is not much; natural silver contains about the same amount of both isotopes.Silver has the atomic number (number of protons) 47; two stable isotopes are 107Ag and 109 Ag. Those would have 107 - 47 = 60, and 109 - 47 = 62 neutrons, respectively. 107Ag is more abundant, but the difference in abundance is not much; natural silver contains about the same amount of both 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.
The isotopes of an atom are defined by the number of neutrons their nuclei have for their fixed number of protons. However, I wouldn't say that neutrons are solely responsible for the presence of isotopes because isotopes also depend on the existence of many other particles such as protons, quarks and gluons. Neutrons certainly are responsible for the way we label isotopes, though.
This question is misguided. Atoms do not have isotopes. In a sample of an element there are many atoms. They will all have the same number of protons in their nuclei, that's what makes them the same element. Individual atoms may have different numbers of neutrons, if this happens they are called isotopes. For instance in silver, all the atoms have 47 protons, but some of them have 60 neutrons and some have 62. We say that silver has two stable isotopes. Perhaps your question should be 'Do all atoms of the same element have the same number of neutrons?'
Mass number is a property of isotopes, not elements themselves. Naturally occurring silver is a mixture of isotopes with mass numbers 107 and 109, with an average atomic mass of 107.9.
47 protons, 47 electrons, and an average of 60.87 neutrons for all of silver's isotopes. Add: There are two naturally occurring silver isotopes, silver-107 and silver-109, which are named for their mass numbers, and which make up virtually 100% of silver atoms. The mass number of an isotope is the sum of protons (atomic number) and neutrons in the atom's nucleus. To find the number of neutrons, subtract the number of protons (atomic number) from the mass number. So a neutral silver-107 atom has 47 protons, 47 electrons, and 60 neutrons (107 - 47). A neutral silver-109 atom has 47 protons, 47 electrons, and 62 neutrons (109 - 47).
For the natural isotopes: - 107Ag has 60 neutrons - 109Ag has 62 neutrons
Isotopes. They differ in the number of neutrons in the nucleus.
The number of neutrons for any given element varies, depending on the isotopes. Search the Wikipedia, or Google, for "Isotopes of Zirconium" for the isotopes of this particular element. The list of isotopes will give you the atomic mass (protons + neutrons) for the different isotopes; subtract the atomic number (which is the number of protons) to get the number of neutrons for each isotope.
Silver has the atomic number (number of protons) 47; two stable isotopes are 107Ag and 109 Ag. Those would have 107 - 47 = 60, and 109 - 47 = 62 neutrons, respectively. 107Ag is more abundant, but the difference in abundance is not much; natural silver contains about the same amount of both isotopes.Silver has the atomic number (number of protons) 47; two stable isotopes are 107Ag and 109 Ag. Those would have 107 - 47 = 60, and 109 - 47 = 62 neutrons, respectively. 107Ag is more abundant, but the difference in abundance is not much; natural silver contains about the same amount of both isotopes.Silver has the atomic number (number of protons) 47; two stable isotopes are 107Ag and 109 Ag. Those would have 107 - 47 = 60, and 109 - 47 = 62 neutrons, respectively. 107Ag is more abundant, but the difference in abundance is not much; natural silver contains about the same amount of both isotopes.Silver has the atomic number (number of protons) 47; two stable isotopes are 107Ag and 109 Ag. Those would have 107 - 47 = 60, and 109 - 47 = 62 neutrons, respectively. 107Ag is more abundant, but the difference in abundance is not much; natural silver contains about the same amount of both isotopes.
== silver-107 and silver-109 have 60 and 62 neutrons, respectively. There are many isotopes of silver having a neutron count from 46 to 83.
Because chlorine has two natural isotopes (and isotopes have different number of neutrons) the total number of neutrons is 30 and 32.
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its according to the number of isotopes
Number of neutrons = Atomic mass of an isotope - Atomic number of the element The atomic number of ununquadium is114; uuq has five isotopes, each with a different number of isotopes..