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Part I: Atomic Radius Trend Going Across the Periodic Table

Part II: Atomic Radius Trend Going Down a Group

Part III: Analysis and Conclusion 1. Refer to the graph that you created in Part I of this assignment. Describe the general trend or patterns that you observed in the atomic radius as you go across the periodic table. (2 points)
· The general trend I observed is that as the atomic number increases, the atomic radius decreases. So, there is a decrease in atomic radius from left to right across the period.
2. In Part II of this assignment, you graphed the atomic radius of some elements from group 14 on the periodic table. What is the general trend for atomic radius going down that group? (2 points)
· The general trend going down Group 14 is that as the periodic number increases, so does that atomic radius. So, there is a increase in atomic radius going down the group of elements on the periodic table.
3. What element in Period 5 of the periodic table is a member of Group 14? (1 point)
· The element Tin is in Period 5 of the periodic table and is a member of Group 14.
4. The word interpolate means to use a given line graph to find unknown points between the plotted points of the graph. Use your line graph from Part II to interpolate, or estimate, atomic radius of Tin (Sn). (1 point)
· The estimated atomic radius of Tin is 147.
5. Tin’s actual atomic radius is 140 pm. Use the math equation below to determine the percent error of your estimated value. (2 points)
Percent error = absolute value (actual value – experimental/estimated value)/ actual value × 100 Percent error = absolute value (140 – 147)/140 x 100 Percent error = absolute value (– 7)/140 x 100 Percent error = absolute value (7)/140 x 100 Percent error = absolute value 0.05 x 100 Percent error = 5% 6. The atomic radius you estimated from your graph is most

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