Please answer part c of the question. Thank you. The International Atomic Energy Agency (IAEA) has an interactive chart of the nuclides which has a wealth of information. Use the chart to answer the questions below this link should open the chart in a new window or tab. Interactive chart of the nuclides (from the IAEA) In your new window or tab, you should see a colorful diagram that is shaped something like an amoeba. Note that you can click-and-drag in the window to re-position the graph, and you can move and zoom using the controls at the top left (you can also zoom by scrolling up or down in the window). (a) Most of the nuclides shown are given a color, representing the half-life, but some of the nuclides are black. Note that, near the bottom left of the chart, the black ones are found on or near the line Z = N (same number of protons and neutrons). As the atomic number increases, however, the nuclides in black are found below the Z N line, so these black ones have more neutrons than protons. what do the nuclides in black represent? These are stable nuclei. O These are nuclides we have no information about. O These are nuclei that decay via alpha decay O These are the nuclides that play the bad nuclei in the movies. O These are nuclei that decay via the beta-plus process. These are nuclei ht deay by oving offa gamma ray These are nuclei that have extremely short half-lives. O These are nuclei that decay via the beta-minus process O These are nuclei that decay via electron capture. (b) To the right of the chart, you should see a \"Color zones by selector with a pull-down menu. Use that pull-down menu to select \"main decay mode\". Note which nuclides decay via alpha decay beta-minus decay, beta-plus decay, etc. In general, what is true about those nuclides which decay via the beta-minus process? They are found above the most stable nuclei, so that decaying via beta-minus moves the nuclei away from the zone of higher stability. O They have long half-lives O They have short h-ives. O They do not change their number of protons when they decay O They do not change their number of neutrons when they decay They are found above the most stable nuclei, so that decaying via beta-minus moves the nuclei toward the zone of higher stability They are found below the most stable nuclei, so that decaying via beta-minus moves the nuclei toward the zone of higher stability ? They are found below the most stable nuclei, so that decaying via beta-minus moves the nuclei away from the zone of higher stability (c) According to the table, the element tin has how many stable nuclides? (This is more than any other element, in fact.) stable nuclides Solution (c) Tin has the most number of nuclides. According to the table, the element tin has ten (10) stable nuclides. .

1. Please answer part c of the question. Thank you.
The International Atomic Energy Agency (IAEA) has an interactive chart of the nuclides which
has a wealth of information. Use the chart to answer the questions below this link should open
the chart in a new window or tab. Interactive chart of the nuclides (from the IAEA) In your new
window or tab, you should see a colorful diagram that is shaped something like an amoeba. Note
that you can click-and-drag in the window to re-position the graph, and you can move and zoom
using the controls at the top left (you can also zoom by scrolling up or down in the window). (a)
Most of the nuclides shown are given a color, representing the half-life, but some of the nuclides
are black. Note that, near the bottom left of the chart, the black ones are found on or near the line
Z = N (same number of protons and neutrons). As the atomic number increases, however, the
nuclides in black are found below the Z N line, so these black ones have more neutrons than
protons. what do the nuclides in black represent? These are stable nuclei. O These are nuclides
we have no information about. O These are nuclei that decay via alpha decay O These are the
nuclides that play the bad nuclei in the movies. O These are nuclei that decay via the beta-plus
process. These are nuclei ht deay by oving offa gamma ray These are nuclei that have extremely
short half-lives. O These are nuclei that decay via the beta-minus process O These are nuclei that
decay via electron capture. (b) To the right of the chart, you should see a "Color zones by
selector with a pull-down menu. Use that pull-down menu to select "main decay mode". Note
which nuclides decay via alpha decay beta-minus decay, beta-plus decay, etc. In general, what is
true about those nuclides which decay via the beta-minus process? They are found above the
most stable nuclei, so that decaying via beta-minus moves the nuclei away from the zone of
higher stability. O They have long half-lives O They have short h-ives. O They do not change
their number of protons when they decay O They do not change their number of neutrons when
they decay They are found above the most stable nuclei, so that decaying via beta-minus moves
the nuclei toward the zone of higher stability They are found below the most stable nuclei, so
that decaying via beta-minus moves the nuclei toward the zone of higher stability ? They are
found below the most stable nuclei, so that decaying via beta-minus moves the nuclei away from
the zone of higher stability (c) According to the table, the element tin has how many stable
nuclides? (This is more than any other element, in fact.) stable nuclides
Solution
(c) Tin has the most number of nuclides.
According to the table, the element tin has ten (10) stable nuclides.