Confused by notation of atomic number Z and mass number A on periodic table of elementsSuperscript and subscript together after the same atomWhat is the group number or name for elements between group 3 and 4 (F-block) on the periodic table?What do the numerals on the top right corner of the cells in the periodic table represent?Memorizing polyatomic ions? Using Periodic TableDo non-English speaking countries use the same element symbols?Why are group 1 elements called alkali metals and group 2 elements are called alkaline earth metals?Can isotopes of a given element be represented by different symbols?What proof is there that the “Island of Stability” exists?Are halogens a further classification of non-metals, or are they another group themselves?Why is the probability for the signal at 160 in the bromine mass spectrum twice as high as for the signals at 158 and 162?Why doesn't the Atomic mass number(u) represent the exact mass of 1 mole of a given element?
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Confused by notation of atomic number Z and mass number A on periodic table of elements
Superscript and subscript together after the same atomWhat is the group number or name for elements between group 3 and 4 (F-block) on the periodic table?What do the numerals on the top right corner of the cells in the periodic table represent?Memorizing polyatomic ions? Using Periodic TableDo non-English speaking countries use the same element symbols?Why are group 1 elements called alkali metals and group 2 elements are called alkaline earth metals?Can isotopes of a given element be represented by different symbols?What proof is there that the “Island of Stability” exists?Are halogens a further classification of non-metals, or are they another group themselves?Why is the probability for the signal at 160 in the bromine mass spectrum twice as high as for the signals at 158 and 162?Why doesn't the Atomic mass number(u) represent the exact mass of 1 mole of a given element?
$begingroup$
I'm totally confused by the different conventions and when to use what. In the Periodic Table I see
$$ce^6_12C$$
However, in books when talking about isotopes I see
$$ce^12_6C$$
I don't understand the difference between the two. I know what the numbers mean but I don't understand when to use which convention. Are there names for these two conventions?
notation periodic-table isotope
edited 40 mins ago
Karsten Theis
5,242644
asked 8 hours ago
DanDan
1411
New contributor
Dan is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
$endgroup$
add a comment |
$begingroup$
I'm totally confused by the different conventions and when to use what. In the Periodic Table I see
$$ce^6_12C$$
However, in books when talking about isotopes I see
$$ce^12_6C$$
I don't understand the difference between the two. I know what the numbers mean but I don't understand when to use which convention. Are there names for these two conventions?
notation periodic-table isotope
edited 40 mins ago
Karsten Theis
5,242644
asked 8 hours ago
DanDan
1411
New contributor
Dan is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
$endgroup$
add a comment |
$begingroup$
I'm totally confused by the different conventions and when to use what. In the Periodic Table I see
$$ce^6_12C$$
However, in books when talking about isotopes I see
$$ce^12_6C$$
I don't understand the difference between the two. I know what the numbers mean but I don't understand when to use which convention. Are there names for these two conventions?
notation periodic-table isotope
edited 40 mins ago
Karsten Theis
5,242644
asked 8 hours ago
DanDan
1411
New contributor
Dan is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
$endgroup$
I'm totally confused by the different conventions and when to use what. In the Periodic Table I see
$$ce^6_12C$$
However, in books when talking about isotopes I see
$$ce^12_6C$$
I don't understand the difference between the two. I know what the numbers mean but I don't understand when to use which convention. Are there names for these two conventions?
notation periodic-table isotope
notation periodic-table isotope
edited 40 mins ago
Karsten Theis
5,242644
asked 8 hours ago
DanDan
1411
New contributor
Dan is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
edited 40 mins ago
Karsten Theis
5,242644
asked 8 hours ago
DanDan
1411
New contributor
Dan is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
edited 40 mins ago
Karsten Theis
5,242644
edited 40 mins ago
Karsten Theis
5,242644
edited 40 mins ago
Karsten Theis
5,242644
5,242644
asked 8 hours ago
DanDan
1411
New contributor
Dan is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
asked 8 hours ago
DanDan
1411
asked 8 hours ago
DanDan
1411
1411
New contributor
Dan is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
New contributor
Dan is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
Dan is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
add a comment |
add a comment |
3 Answers
3
active
oldest
votes
$begingroup$
Periodic tables of elements (PTEs) are often abused by designers. Books are more trustworthy as long as they are written by chemists. Long story short, the second notation $(ce^12_6C)$ is the correct one.
There is an easy to remember AZE notation: $^A_ZceE$.
I suspect the PTE you were looking at lists standard (averaged) atomic weights of the elements $A_mathrmr$ rounded to the nearest whole number so it may appear as if those were the mass numbers $A$, probably something like this:
Note that a good periodic table usually includes a legend which deciphers and justifies designer's choice.
Even better example is the Periodic Table of the Elements by NIST.
Despite atomic number $Z$ also located in the upper left corner of the cell, its location is typographically literate as both $Z$ and $A_mathrmr$ have distinct place, different typeface and the legend unambiguously denotes which is which:
answered 8 hours ago
andseliskandselisk
20.1k667130
$endgroup$
1
$begingroup$
@NightWriter Thank you for the edit, I copypasted part of the sentence and forgot to change the word: it should be vice versa;)
$endgroup$
– andselisk
4 hours ago
$begingroup$
@NightWriter If you want mass numbers, then it's the Nuklidkarte in Karsten's answer. Here it's the average atomic weight, which I assumed was rounded to the whole part in OP's PTE, so that it appeared as if it were the mass number, so I went along with this (maybe it wasn't a good idea though).
$endgroup$
– andselisk
3 hours ago
2
$begingroup$
Ok but I think that generally speaking one should not assume that for a particular nuclide rounding off the average over the natural abundances will give you that particular nuclides mass number. There's a loss of generality there. I think you may want to look for a better figure or explain that in your answer.
$endgroup$
– Night Writer
3 hours ago
$begingroup$
@NightWriter Yep, that's a good point, thank you for noticing this flaw. I'm going to fix this in a while.
$endgroup$
– andselisk
3 hours ago
add a comment |
$begingroup$
According to the international standard ISO 80000 Quantities and units – Part 9: Physical chemistry and molecular physics (corrected in Amendment 1, 2011-06-01), the attached subscripts and superscripts have the following meanings.
(…)
The nucleon number (mass number) of a nuclide is shown in the left superscript position, as in the following
example: $$mathrm^14N$$
(…)
The atomic number (proton number) is shown in the left subscript position, as in the following example. $$mathrm_64Gd$$
(…)
The same meanings are described in the German standard DIN 1338 (2011).
$$^A_Zmathrm E_nu^z$$
This notation is also used in Nomenclature of Inorganic Chemistry – IUPAC Recommendations 2005 (Red Book). Note, however, that this document unfortunately introduced the terrible typographic disaster of the staggered notation for ions (see this question).
The mass, charge and atomic number of a nuclide are indicated by means of three indexes (subscripts and superscripts) placed around the symbol. The positions are occupied as follows:
left upper index mass number
left lower index atomic number
right upper index charge
The same notation can also be found in the IUPAC Green Book Quantities, Units and Symbols in Physical Chemistry (2007).
It is also recommended in the ACS Style Guide:
Use the left superscript for mass number
Use the left subscript for atomic number
answered 7 hours ago
Loong♦Loong
34.5k886181
$endgroup$
add a comment |
$begingroup$
Different periodic tables show the atomic number above, below, or next to the element. They don’t show the mass number, usually, but the atomic weight (not an integer). There is a type of table, for example the Karlsruher Nuklidkarte, that shows all observed isotopes, and this type of chart does show mass numbers as well.
In the picture, the isotope chart is on the right (https://www.nucleonica.com/wiki/index.php?title=Historical)
answered 5 hours ago
Karsten TheisKarsten Theis
5,242644
$endgroup$
add a comment |
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3 Answers
3
active
oldest
votes
3 Answers
3
active
oldest
votes
active
oldest
votes
active
oldest
votes
$begingroup$
Periodic tables of elements (PTEs) are often abused by designers. Books are more trustworthy as long as they are written by chemists. Long story short, the second notation $(ce^12_6C)$ is the correct one.
There is an easy to remember AZE notation: $^A_ZceE$.
I suspect the PTE you were looking at lists standard (averaged) atomic weights of the elements $A_mathrmr$ rounded to the nearest whole number so it may appear as if those were the mass numbers $A$, probably something like this:
Note that a good periodic table usually includes a legend which deciphers and justifies designer's choice.
Even better example is the Periodic Table of the Elements by NIST.
Despite atomic number $Z$ also located in the upper left corner of the cell, its location is typographically literate as both $Z$ and $A_mathrmr$ have distinct place, different typeface and the legend unambiguously denotes which is which:
answered 8 hours ago
andseliskandselisk
20.1k667130
$endgroup$
1
$begingroup$
@NightWriter Thank you for the edit, I copypasted part of the sentence and forgot to change the word: it should be vice versa;)
$endgroup$
– andselisk
4 hours ago
$begingroup$
@NightWriter If you want mass numbers, then it's the Nuklidkarte in Karsten's answer. Here it's the average atomic weight, which I assumed was rounded to the whole part in OP's PTE, so that it appeared as if it were the mass number, so I went along with this (maybe it wasn't a good idea though).
$endgroup$
– andselisk
3 hours ago
2
$begingroup$
Ok but I think that generally speaking one should not assume that for a particular nuclide rounding off the average over the natural abundances will give you that particular nuclides mass number. There's a loss of generality there. I think you may want to look for a better figure or explain that in your answer.
$endgroup$
– Night Writer
3 hours ago
$begingroup$
@NightWriter Yep, that's a good point, thank you for noticing this flaw. I'm going to fix this in a while.
$endgroup$
– andselisk
3 hours ago
add a comment |
$begingroup$
Periodic tables of elements (PTEs) are often abused by designers. Books are more trustworthy as long as they are written by chemists. Long story short, the second notation $(ce^12_6C)$ is the correct one.
There is an easy to remember AZE notation: $^A_ZceE$.
I suspect the PTE you were looking at lists standard (averaged) atomic weights of the elements $A_mathrmr$ rounded to the nearest whole number so it may appear as if those were the mass numbers $A$, probably something like this:
Note that a good periodic table usually includes a legend which deciphers and justifies designer's choice.
Even better example is the Periodic Table of the Elements by NIST.
Despite atomic number $Z$ also located in the upper left corner of the cell, its location is typographically literate as both $Z$ and $A_mathrmr$ have distinct place, different typeface and the legend unambiguously denotes which is which:
answered 8 hours ago
andseliskandselisk
20.1k667130
$endgroup$
1
$begingroup$
@NightWriter Thank you for the edit, I copypasted part of the sentence and forgot to change the word: it should be vice versa;)
$endgroup$
– andselisk
4 hours ago
$begingroup$
@NightWriter If you want mass numbers, then it's the Nuklidkarte in Karsten's answer. Here it's the average atomic weight, which I assumed was rounded to the whole part in OP's PTE, so that it appeared as if it were the mass number, so I went along with this (maybe it wasn't a good idea though).
$endgroup$
– andselisk
3 hours ago
2
$begingroup$
Ok but I think that generally speaking one should not assume that for a particular nuclide rounding off the average over the natural abundances will give you that particular nuclides mass number. There's a loss of generality there. I think you may want to look for a better figure or explain that in your answer.
$endgroup$
– Night Writer
3 hours ago
$begingroup$
@NightWriter Yep, that's a good point, thank you for noticing this flaw. I'm going to fix this in a while.
$endgroup$
– andselisk
3 hours ago
add a comment |
$begingroup$
Periodic tables of elements (PTEs) are often abused by designers. Books are more trustworthy as long as they are written by chemists. Long story short, the second notation $(ce^12_6C)$ is the correct one.
There is an easy to remember AZE notation: $^A_ZceE$.
I suspect the PTE you were looking at lists standard (averaged) atomic weights of the elements $A_mathrmr$ rounded to the nearest whole number so it may appear as if those were the mass numbers $A$, probably something like this:
Note that a good periodic table usually includes a legend which deciphers and justifies designer's choice.
Even better example is the Periodic Table of the Elements by NIST.
Despite atomic number $Z$ also located in the upper left corner of the cell, its location is typographically literate as both $Z$ and $A_mathrmr$ have distinct place, different typeface and the legend unambiguously denotes which is which:
answered 8 hours ago
andseliskandselisk
20.1k667130
$endgroup$
Periodic tables of elements (PTEs) are often abused by designers. Books are more trustworthy as long as they are written by chemists. Long story short, the second notation $(ce^12_6C)$ is the correct one.
There is an easy to remember AZE notation: $^A_ZceE$.
I suspect the PTE you were looking at lists standard (averaged) atomic weights of the elements $A_mathrmr$ rounded to the nearest whole number so it may appear as if those were the mass numbers $A$, probably something like this:
Note that a good periodic table usually includes a legend which deciphers and justifies designer's choice.
Even better example is the Periodic Table of the Elements by NIST.
Despite atomic number $Z$ also located in the upper left corner of the cell, its location is typographically literate as both $Z$ and $A_mathrmr$ have distinct place, different typeface and the legend unambiguously denotes which is which:
answered 8 hours ago
andseliskandselisk
20.1k667130
edited 3 hours ago
answered 8 hours ago
andseliskandselisk
20.1k667130
answered 8 hours ago
andseliskandselisk
20.1k667130
answered 8 hours ago
andseliskandselisk
20.1k667130
20.1k667130
1
$begingroup$
@NightWriter Thank you for the edit, I copypasted part of the sentence and forgot to change the word: it should be vice versa;)
$endgroup$
– andselisk
4 hours ago
$begingroup$
@NightWriter If you want mass numbers, then it's the Nuklidkarte in Karsten's answer. Here it's the average atomic weight, which I assumed was rounded to the whole part in OP's PTE, so that it appeared as if it were the mass number, so I went along with this (maybe it wasn't a good idea though).
$endgroup$
– andselisk
3 hours ago
2
$begingroup$
Ok but I think that generally speaking one should not assume that for a particular nuclide rounding off the average over the natural abundances will give you that particular nuclides mass number. There's a loss of generality there. I think you may want to look for a better figure or explain that in your answer.
$endgroup$
– Night Writer
3 hours ago
$begingroup$
@NightWriter Yep, that's a good point, thank you for noticing this flaw. I'm going to fix this in a while.
$endgroup$
– andselisk
3 hours ago
add a comment |
1
$begingroup$
@NightWriter Thank you for the edit, I copypasted part of the sentence and forgot to change the word: it should be vice versa;)
$endgroup$
– andselisk
4 hours ago
$begingroup$
@NightWriter If you want mass numbers, then it's the Nuklidkarte in Karsten's answer. Here it's the average atomic weight, which I assumed was rounded to the whole part in OP's PTE, so that it appeared as if it were the mass number, so I went along with this (maybe it wasn't a good idea though).
$endgroup$
– andselisk
3 hours ago
2
$begingroup$
Ok but I think that generally speaking one should not assume that for a particular nuclide rounding off the average over the natural abundances will give you that particular nuclides mass number. There's a loss of generality there. I think you may want to look for a better figure or explain that in your answer.
$endgroup$
– Night Writer
3 hours ago
$begingroup$
@NightWriter Yep, that's a good point, thank you for noticing this flaw. I'm going to fix this in a while.
$endgroup$
– andselisk
3 hours ago
1
1
$begingroup$
@NightWriter Thank you for the edit, I copypasted part of the sentence and forgot to change the word: it should be vice versa;)
$endgroup$
– andselisk
4 hours ago
$begingroup$
@NightWriter Thank you for the edit, I copypasted part of the sentence and forgot to change the word: it should be vice versa;)
$endgroup$
– andselisk
4 hours ago
$begingroup$
@NightWriter If you want mass numbers, then it's the Nuklidkarte in Karsten's answer. Here it's the average atomic weight, which I assumed was rounded to the whole part in OP's PTE, so that it appeared as if it were the mass number, so I went along with this (maybe it wasn't a good idea though).
$endgroup$
– andselisk
3 hours ago
$begingroup$
@NightWriter If you want mass numbers, then it's the Nuklidkarte in Karsten's answer. Here it's the average atomic weight, which I assumed was rounded to the whole part in OP's PTE, so that it appeared as if it were the mass number, so I went along with this (maybe it wasn't a good idea though).
$endgroup$
– andselisk
3 hours ago
2
2
$begingroup$
Ok but I think that generally speaking one should not assume that for a particular nuclide rounding off the average over the natural abundances will give you that particular nuclides mass number. There's a loss of generality there. I think you may want to look for a better figure or explain that in your answer.
$endgroup$
– Night Writer
3 hours ago
$begingroup$
Ok but I think that generally speaking one should not assume that for a particular nuclide rounding off the average over the natural abundances will give you that particular nuclides mass number. There's a loss of generality there. I think you may want to look for a better figure or explain that in your answer.
$endgroup$
– Night Writer
3 hours ago
$begingroup$
@NightWriter Yep, that's a good point, thank you for noticing this flaw. I'm going to fix this in a while.
$endgroup$
– andselisk
3 hours ago
$begingroup$
@NightWriter Yep, that's a good point, thank you for noticing this flaw. I'm going to fix this in a while.
$endgroup$
– andselisk
3 hours ago
add a comment |
$begingroup$
According to the international standard ISO 80000 Quantities and units – Part 9: Physical chemistry and molecular physics (corrected in Amendment 1, 2011-06-01), the attached subscripts and superscripts have the following meanings.
(…)
The nucleon number (mass number) of a nuclide is shown in the left superscript position, as in the following
example: $$mathrm^14N$$
(…)
The atomic number (proton number) is shown in the left subscript position, as in the following example. $$mathrm_64Gd$$
(…)
The same meanings are described in the German standard DIN 1338 (2011).
$$^A_Zmathrm E_nu^z$$
This notation is also used in Nomenclature of Inorganic Chemistry – IUPAC Recommendations 2005 (Red Book). Note, however, that this document unfortunately introduced the terrible typographic disaster of the staggered notation for ions (see this question).
The mass, charge and atomic number of a nuclide are indicated by means of three indexes (subscripts and superscripts) placed around the symbol. The positions are occupied as follows:
left upper index mass number
left lower index atomic number
right upper index charge
The same notation can also be found in the IUPAC Green Book Quantities, Units and Symbols in Physical Chemistry (2007).
It is also recommended in the ACS Style Guide:
Use the left superscript for mass number
Use the left subscript for atomic number
answered 7 hours ago
Loong♦Loong
34.5k886181
$endgroup$
add a comment |
$begingroup$
According to the international standard ISO 80000 Quantities and units – Part 9: Physical chemistry and molecular physics (corrected in Amendment 1, 2011-06-01), the attached subscripts and superscripts have the following meanings.
(…)
The nucleon number (mass number) of a nuclide is shown in the left superscript position, as in the following
example: $$mathrm^14N$$
(…)
The atomic number (proton number) is shown in the left subscript position, as in the following example. $$mathrm_64Gd$$
(…)
The same meanings are described in the German standard DIN 1338 (2011).
$$^A_Zmathrm E_nu^z$$
This notation is also used in Nomenclature of Inorganic Chemistry – IUPAC Recommendations 2005 (Red Book). Note, however, that this document unfortunately introduced the terrible typographic disaster of the staggered notation for ions (see this question).
The mass, charge and atomic number of a nuclide are indicated by means of three indexes (subscripts and superscripts) placed around the symbol. The positions are occupied as follows:
left upper index mass number
left lower index atomic number
right upper index charge
The same notation can also be found in the IUPAC Green Book Quantities, Units and Symbols in Physical Chemistry (2007).
It is also recommended in the ACS Style Guide:
Use the left superscript for mass number
Use the left subscript for atomic number
answered 7 hours ago
Loong♦Loong
34.5k886181
$endgroup$
add a comment |
$begingroup$
According to the international standard ISO 80000 Quantities and units – Part 9: Physical chemistry and molecular physics (corrected in Amendment 1, 2011-06-01), the attached subscripts and superscripts have the following meanings.
(…)
The nucleon number (mass number) of a nuclide is shown in the left superscript position, as in the following
example: $$mathrm^14N$$
(…)
The atomic number (proton number) is shown in the left subscript position, as in the following example. $$mathrm_64Gd$$
(…)
The same meanings are described in the German standard DIN 1338 (2011).
$$^A_Zmathrm E_nu^z$$
This notation is also used in Nomenclature of Inorganic Chemistry – IUPAC Recommendations 2005 (Red Book). Note, however, that this document unfortunately introduced the terrible typographic disaster of the staggered notation for ions (see this question).
The mass, charge and atomic number of a nuclide are indicated by means of three indexes (subscripts and superscripts) placed around the symbol. The positions are occupied as follows:
left upper index mass number
left lower index atomic number
right upper index charge
The same notation can also be found in the IUPAC Green Book Quantities, Units and Symbols in Physical Chemistry (2007).
It is also recommended in the ACS Style Guide:
Use the left superscript for mass number
Use the left subscript for atomic number
answered 7 hours ago
Loong♦Loong
34.5k886181
$endgroup$
According to the international standard ISO 80000 Quantities and units – Part 9: Physical chemistry and molecular physics (corrected in Amendment 1, 2011-06-01), the attached subscripts and superscripts have the following meanings.
(…)
The nucleon number (mass number) of a nuclide is shown in the left superscript position, as in the following
example: $$mathrm^14N$$
(…)
The atomic number (proton number) is shown in the left subscript position, as in the following example. $$mathrm_64Gd$$
(…)
The same meanings are described in the German standard DIN 1338 (2011).
$$^A_Zmathrm E_nu^z$$
This notation is also used in Nomenclature of Inorganic Chemistry – IUPAC Recommendations 2005 (Red Book). Note, however, that this document unfortunately introduced the terrible typographic disaster of the staggered notation for ions (see this question).
The mass, charge and atomic number of a nuclide are indicated by means of three indexes (subscripts and superscripts) placed around the symbol. The positions are occupied as follows:
left upper index mass number
left lower index atomic number
right upper index charge
The same notation can also be found in the IUPAC Green Book Quantities, Units and Symbols in Physical Chemistry (2007).
It is also recommended in the ACS Style Guide:
Use the left superscript for mass number
Use the left subscript for atomic number
answered 7 hours ago
Loong♦Loong
34.5k886181
edited 7 hours ago
answered 7 hours ago
Loong♦Loong
34.5k886181
answered 7 hours ago
Loong♦Loong
34.5k886181
answered 7 hours ago
Loong♦Loong
34.5k886181
34.5k886181
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$begingroup$
Different periodic tables show the atomic number above, below, or next to the element. They don’t show the mass number, usually, but the atomic weight (not an integer). There is a type of table, for example the Karlsruher Nuklidkarte, that shows all observed isotopes, and this type of chart does show mass numbers as well.
In the picture, the isotope chart is on the right (https://www.nucleonica.com/wiki/index.php?title=Historical)
answered 5 hours ago
Karsten TheisKarsten Theis
5,242644
$endgroup$
add a comment |
$begingroup$
Different periodic tables show the atomic number above, below, or next to the element. They don’t show the mass number, usually, but the atomic weight (not an integer). There is a type of table, for example the Karlsruher Nuklidkarte, that shows all observed isotopes, and this type of chart does show mass numbers as well.
In the picture, the isotope chart is on the right (https://www.nucleonica.com/wiki/index.php?title=Historical)
answered 5 hours ago
Karsten TheisKarsten Theis
5,242644
$endgroup$
add a comment |
$begingroup$
Different periodic tables show the atomic number above, below, or next to the element. They don’t show the mass number, usually, but the atomic weight (not an integer). There is a type of table, for example the Karlsruher Nuklidkarte, that shows all observed isotopes, and this type of chart does show mass numbers as well.
In the picture, the isotope chart is on the right (https://www.nucleonica.com/wiki/index.php?title=Historical)
answered 5 hours ago
Karsten TheisKarsten Theis
5,242644
$endgroup$
Different periodic tables show the atomic number above, below, or next to the element. They don’t show the mass number, usually, but the atomic weight (not an integer). There is a type of table, for example the Karlsruher Nuklidkarte, that shows all observed isotopes, and this type of chart does show mass numbers as well.
In the picture, the isotope chart is on the right (https://www.nucleonica.com/wiki/index.php?title=Historical)
answered 5 hours ago
Karsten TheisKarsten Theis
5,242644
answered 5 hours ago
Karsten TheisKarsten Theis
5,242644
answered 5 hours ago
Karsten TheisKarsten Theis
5,242644
answered 5 hours ago
Karsten TheisKarsten Theis
5,242644
5,242644
add a comment |
add a comment |
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