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This article was co-authored by Bess Ruff, MA. Bess Ruff is a Geography PhD student at Florida State University. She received her MA in Environmental Science and Management from the University of California, Santa Barbara in 2016. She has conducted survey work for marine spatial planning projects in the Caribbean and provided research support as a graduate fellow for the Sustainable Fisheries Group.
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Atomic mass is the sum of all the protons, neutrons, and electrons in a single atom or molecule. However, the mass of an electron is so small, it is considered negligible and not included in the calculation.[1] Though technically incorrect, the term is also often used to refer to the average atomic mass of all of the isotopes of one element. This second definition is actually the relative atomic mass, also known as the atomic weight, of an element.[2] The atomic weight takes into account the average of the masses of naturally occurring isotopes of the same element. Chemists need to distinguish between these two types of atomic mass to guide their work - an incorrect value for atomic mass can, for instance, lead to an incorrect calculation of an experiment's yield.
Steps
Understand how atomic mass is represented. Atomic mass, the mass of a given atom or molecule, can be expressed in standard SI mass units - grams, kilograms, etc. However, because atomic masses, when expressed in these terms, are incredibly small, atomic mass is often expressed in unified atomic mass units (usually shortened to "u" or "amu") or in Dalton's (Da). The standard for one atomic mass unit is equal to 1/12th of the mass of a standard carbon-12 isotope.[3]- The atomic mass is the number of grams of the element in one mole of atoms of the element. This is a very useful property when it comes to practical calculations, as it allows easy conversion between the mass and moles of a given quantity of atoms or molecules of the same type.
Locate atomic mass on the periodic table. Most standard periodic tables list the relative atomic masses (atomic weights) of each element. This is almost always written as a number at the bottom of the element's square on the table, under its one or two letter chemical symbol. This number is usually expressed as a decimal rather than as a whole number.- Note that the relative atomic masses listed on the periodic table are average values for the associated element. Chemical elements have different isotopes - chemical forms that differ in mass because of the addition or subtraction of one or more neutrons to the atom's nucleus.[4] Thus, the relative atomic mass listed on the periodic table is suitable as an average value for atoms of a certain element, but not as the mass of a single atom of that element.
- Relative atomic masses, as listed on the periodic table, are used to calculate molar masses for atoms and molecules. Atomic masses, when expressed in amu, as on the periodic table, are technically unitless. However, by simply multiplying an atomic mass by 1 g/mol, a workable quantity is obtained for an element's molar mass - the mass (in grams) of one mole of an element's atoms.
- For example, the atomic mass of iron is 55.847 amu, which means one mole of iron atoms would weigh 55.847 grams.
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Understand that periodic table values are an average atomic mass for an element. As has been noted, the relative atomic masses listed for each element on the periodic table are average values of all of an atom's isotopes. This average value is valuable for many practical calculations - like, for instance, calculating the molar mass of a molecule comprised of several atoms. However, when dealing with individual atoms, this number is sometimes insufficient.- Because it's an average of several different types of isotopes, the value on the periodic table isn't the exact value for any single atom's atomic mass.
- The atomic masses for individual atoms must be calculated by taking into account the exact number of protons and neutrons in a single atom.
Grasp isotopic mass differences. "I didn't get why isotopes of the same element had different atomic masses. The drawings here showing protons, neutrons, and electrons in the nucleus made it click — more neutrons mean more mass! Now, isotope atomic masses make total sense." - Anudha N.
Learn to calculate real atomic masses. "As a student, I got confused since the periodic table only gives average atomic masses. Working through the examples of finding exact masses using proton and neutron counts opened it up for me. Now, I can figure out atomic masses with no trouble!" - Peter M.
Grasp what atomic mass actually is. "I wasn't sure what atomic mass really represents or how to calculate it. The clear summaries and step-by-step instructions here boosted my understanding a lot. I'm not confused anymore about this key chemistry idea." - George S.
Understand a vital chemistry concept. "Not getting atomic mass made my chemistry homework so hard. But the friendly instructions and diagrams let me finally get what it is. Now, I can use my atomic mass knowledge to take on my work!" - Jessica K.
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Find the atomic number of the element or isotope. The atomic number is the number of protons in an element, and never varies.[5] For example, all hydrogen atoms, and only hydrogen atoms, have 1 proton. Sodium has an atomic number of 11 because its nucleus has 11 protons, while oxygen has an atomic number of 8 because its nucleus has 8 protons. You can find the atomic number of any element on the periodic table - in nearly all standard periodic tables: it's the number above an element's 1 or 2-letter chemical symbol. This number will always be a positive whole number.- Let's say that we're working with the carbon atom. Carbon always has 6 protons, so we know its atomic number is 6. We can also see on the periodic table that the square for carbon (C) has a "6" at the top, signifying that carbon's atomic number is 6.
- Note that an element's atomic number doesn't have any direct bearing on its relative atomic mass as listed on the periodic table. Though, especially among elements at the top of the periodic table, it may seem that an atoms' atomic mass is about twice its atomic number, atomic mass isn't ever calculated by doubling an element's atomic number.
Find the number of neutrons in the nucleus. The number of neutrons can vary among atoms of a certain element. While 2 atoms with the same number of protons and differing numbers of neutrons are both the same element, they are different isotopes of that element. Unlike the number of protons in an element, which never changes, the number of neutrons in atoms of a certain element can vary often enough that the average atomic mass of the element must be expressed as a decimal value between two whole numbers.- The number of neutrons can be determined by the isotope designation of the element. For example, carbon-14 is a naturally occurring radioactive isotope of carbon-12. You will often see an isotope designated with the number as a superscript before the element symbol: 14C. The number of neutrons is calculated by subtracting the number of protons from the isotope number: 14 – 6 = 8 neutrons.
- Let's say the carbon atom we're working with has six neutrons (12C). This is by far the most common isotope of carbon, accounting for nearly 99% of all carbon atoms.[6] However, about 1% of carbon atoms have 7 neutrons (13C). Other types of carbon atoms with more or less than 6 or 7 neutrons exist in very small amounts.
Add the proton and neutron count. This is the atomic mass of that atom. Don't worry about the number of electrons orbiting the nucleus - their combined mass is very, very small, so, in most practical cases, it won't significantly affect your answer.[7]- Our carbon atom has 6 protons + 6 neutrons = 12. The atomic mass of this specific carbon atom is 12. If it was a carbon-13 isotope, on the other hand, we would know that it has 6 protons + 7 neutrons = an atomic weight of 13.
- The actual atomic weight of carbon-13 is 13.003355[8], and is more precise because it was determined experimentally.
- Atomic mass is very close to the isotope number of an element. For basic calculation purposes, isotope number is equal to atomic mass. When determined experimentally, the atomic mass is slightly higher than the isotope number due to the very small mass contribution from electrons.
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Method 3
Method 3 of 3:
Calculating Relative Atomic Mass (Atomic Weight) for an Element
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Determine which isotopes are in the sample. Chemists often determine the relative proportions of isotopes in a given sample by using a special tool called a mass spectrometer. However, at student-level chemistry, this information is often provided for you on school tests, etc., in the form of established values from scientific literature.- For our purposes, let's say we're working with the isotopes carbon-12 and carbon-13.
Determine the relative abundance of each isotope in the sample. Within a given element, different isotopes appear in different proportions. These proportions are almost always expressed as percentages. Some isotopes will be very common, while others will be very rare - at times, so rare that they can barely be detected. This information can be determined through mass spectrometry or from a reference book.- Let's say that the abundance of carbon-12 is 99% and the abundance of carbon-13 is 1%. Other carbon isotopes do exist, but they exist in quantities so small that, for this example problem, they can be ignored.
Multiply the atomic mass of each isotope by its proportion in the sample. Multiply the atomic mass of each isotope by its percent abundance (written as a decimal). To convert a percentage to a decimal, simply divide it by 100. The converted percentages should always add up to 1.- Our sample contains carbon-12 and carbon-13. If carbon-12 makes up 99% of the sample and carbon-13 makes up 1% of the sample, multiply 12 (the atomic mass of carbon-12) by 0.99 and 13 (the atomic mass of carbon-13) by 0.01.
- A reference book will give percent proportions based on all the known amounts of an element's isotopes. Most chemistry textbooks include this information in a table at the end of the book. A mass spectrometer can also yield the proportions for the sample being tested.
Add the results. Sum the products of the multiplications you performed in the previous step. The result of this addition is the relative atomic mass of your element - the average value of the atomic masses of your element's isotopes. When discussing an element in general, and not specific isotopes of that element, this value is used.- In our example, 12 x 0.99 = 11.88 for carbon-12, while 13 x 0.01 = 0.13 for carbon-13. The relative atomic mass of our example is 11.88 + 0.13 = 12.01.
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Community Q&A
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- QuestionHow do I find the mass number of an atom?
Community AnswerAdd the protons and neutrons together to find the mass, or add the masses of the isotopes multiplied by the atom's natural abundance. - QuestionIf 1 amu is 1/12 of a carbon 12 atom, why is it that when I add the masses of the individual parts of a carbon 12 atom, I get more than 12 amu?
Community Answer1 u = 1/12 the mass of carbon 12 by definition. You're adding the masses of uncombined protons and neutrons, 1.0073 u and 1.0087 u respectively. But when those particles fuse together to form an atom, some of the mass is converted into energy according to E=mc^2. The lost mass is called the "mass defect", and the equivalent amount of energy is the "binding energy." - QuestionHow can I find the mass of any atom to convert it in a.m.u.?
Community AnswerWe can find the mass of any atom by adding the electrons, protons and neutrons.
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Things You'll Need
- Chemistry reference book
- Calculator
References
- ↑ https://www.angelo.edu/faculty/kboudrea/periodic/structure_mass.htm
- ↑ https://www.chemteam.info/Mole/AverageAtomicWeight.html
- ↑ https://sciencenotes.org/calculate-atomic-mass-tutorial/
- ↑ https://www.angelo.edu/faculty/kboudrea/periodic/structure_mass.htm
- ↑ https://www.nde-ed.org/EducationResources/HighSchool/Radiography/atomicmassnumber.htm
- ↑ https://www.chemteam.info/Mole/AverageAtomicWeight.html
- ↑ https://www.youtube.com/watch?v=yooYnW8uhHk
- ↑ https://www.chemteam.info/Mole/AverageAtomicWeight.html
About This Article
Environmental Scientist
This article was co-authored by Bess Ruff, MA. Bess Ruff is a Geography PhD student at Florida State University. She received her MA in Environmental Science and Management from the University of California, Santa Barbara in 2016. She has conducted survey work for marine spatial planning projects in the Caribbean and provided research support as a graduate fellow for the Sustainable Fisheries Group. This article has been viewed 974,796 times.
Co-authors: 59
Updated: January 19, 2024
Views: 974,796
Categories: Chemistry Calculations
Article SummaryX
To calculate atomic mass, start by finding the atomic number of the element, which is the number above the element on the periodic table. Next, find the number of neutrons in the nucleus by subtracting the atomic number from the isotope number. Finally, add the atomic number and the number of neutrons to get the atomic mass. To learn how to locate an element's atomic mass on the periodic table, keep reading!
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