Atomic mass generally increasing with atomic number, although there are a few exceptions.
See the Web Links to the left for the answer.The AntoineFrosturg.edu page has a graph of atomic radius versus atomic number.The HMCO.com page has an interactive feature where you can individually plot the atomic radius for each row or column of the periodic table.The other two sites have tables with the actual numbers for the atomic radii. Go to wikipedia.org and look up atomic radius, they have 2 charts for it.
A general pattern found on a graph of radioactive decay is that the number of radioactive atoms decreases exponentially over time. The graph typically shows a steep initial drop followed by a gradual decrease as the radioactive material decays.
A bar graph would be best to compare the atomic weights of different elements, as it allows for easy visual comparison of values. Each element could be represented by a separate bar, with the height of the bar corresponding to the atomic weight of the element.
The graph of binding energy per nucleon versus mass number is an analog of this graph, except it would be upside down. Iron, which has the highest binding energy per nucleon, would have the least mass per nucleon as you looked across the periodic table. Use the link below to see the graph of binding energy per nucleon plotted against mass number. If you "invert" this graph, you'll have yours. If any uncertainty exists as to what is going on with "variable" mass among the nucleons of different elements, use the link below to the related question and investigate why things are the way they are.
It has to do with the line of stability. Isotopes are made of an extra neutron, making the atomic mass greater. If the number of protons and neutrons on the graph that has the line of stability fall anywhere that's not on the line, it is unstable.
to observe general trends and pattern in a data
Atomic number = number of protons Atomic mass number = number of protons + number of neutrons Relative mass number = the weighted average mass numbers of the naturally occurring isotopes as compared to C-12 If you delete the atomic number from the mass number you get the number of neutrons. The atomic number is the number of protons and electrons. (They are both the same number.)
See the Web Links to the left for the answer.The AntoineFrosturg.edu page has a graph of atomic radius versus atomic number.The HMCO.com page has an interactive feature where you can individually plot the atomic radius for each row or column of the periodic table.The other two sites have tables with the actual numbers for the atomic radii. Go to wikipedia.org and look up atomic radius, they have 2 charts for it.
The time it takes to compute the out-degree of every vertex in a graph depends on the size of the graph and the algorithm used. In general, the time complexity is O(V E), where V is the number of vertices and E is the number of edges in the graph.
A general pattern found on a graph of radioactive decay is that the number of radioactive atoms decreases exponentially over time. The graph typically shows a steep initial drop followed by a gradual decrease as the radioactive material decays.
The nuclear stability graph shows that there is an optimal ratio of protons to neutrons in an atomic nucleus for stability. Nuclei with too few or too many neutrons compared to protons are less stable.
The general formula for a cubic graph is y=ax3 + bx2 + cx + d.
I am sorry but this question refers to a particular graph and the graph or a reference to it was not included.
The band of stability graph shows that there is an optimal ratio of protons to neutrons in atomic nuclei for stability. Nuclei with too few or too many neutrons compared to protons are less stable and tend to undergo radioactive decay.
A bar graph would be best to compare the atomic weights of different elements, as it allows for easy visual comparison of values. Each element could be represented by a separate bar, with the height of the bar corresponding to the atomic weight of the element.
cyclomatic number of a graph is e.n+1 where e is number of edge of graph and n is number of node in graoh g
The plotting of data on a graph is used to observe, and subsequently describe, visible patterns that exist within the data.