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Mr. Balmer Name:
Periodic Variation in Properties (30pts)
Purpose: It is your group’s job to make a line graph comparing your assigned property to the
atomic number of the first 20 elements.
Materials: calculator, element data cards, graph paper, ruler, Microsoft Excel
Prelab Questions: Define the following terms. (5pts)
1) Density:
2) Melting Point:
3) Electrical Conductivity:
4) Atomic radius:
5) Electronegativity:
6) First Ionization Energy:
Procedure: Make a line graph according to your group’s data listed below. (10pts)
Group 1— Make a line graph comparing density and atomic number
Group 2— Make a line graph comparing melting point (in ºC) and atomic number.
Group 3—Make a line graph comparing electrical conductivity and atomic number.
Group 4—Make a line graph comparing atomic radius (in nm) and atomic number.
Group 5—Make a line graph comparing electronegativity (Pauling’s) and atomic number.
Group 6—Make a line graph comparing the first ionization energy and atomic number.
Questions: Use complete sentences for full credit. (10pts)
1. Does your graph reveal a repeating, or cyclic, pattern? (Hint: Focus on the highs and
lows of your graph.) Describe any patterns you observe.
2. Cut out your element cards and arrange them in a row. When the pattern you observed in
your graph repeats, start a new row below the first row. Draw a picture of your
arrangement below. Do you notice anything special about your arrangement?
Ex) A B C D E
F G H I J
K L M N O
3. Where are elements with the highest densities located on the Periodic Table?
4. Where are elements with the highest melting points located on the Periodic Table?
5. Where are elements with the highest electrical conductivity located on the Periodic
Table?
6. Where are elements with the largest atomic radius located on the Periodic Table?
7. Where are elements with the highest electronegativity located on the Periodic Table?
8. Where are elements with the highest ionization energy located on the Periodic Table?
9. Based on your graphs and the Periodic Table, predict what properties the following
elements might have. Explain Your Answers.
A) rubidium (Rb)—
B) bromine (Br)—
10. Based on the class’s graphs, why is the chemist’s organization of elements called a
periodic table?
Conclusion- 5-6 sentences (5pts)
H- Hydrogen C- Carbon (diamond)
Atomic Number: 1 Atomic Number: 6
Density: 0.0000899 g/mL (H gas) Density: 3.51 g/mL
2
Melting Point: -259.34 ºC (H gas) Melting Point: -- ºC (enter 3000ºC)
2
7 -1 7 -1
Conductivity (x 10 ): 0.00 (Ωm) Conductivity (x 10 ): 0.00 (Ωm)
Atomic Radius: 0.079 nm Atomic Radius: 0.091 nm
Electronegativity: 2.10 Electronegativity: 2.55
st st
1 Ionization Energy: 1312.0 kJ/mol 1 Ionization Energy: 1086.4 kJ/mol
He- Helium N- Nitrogen
Atomic Number: 2 Atomic Number: 7
Density: 0.0001785g/mL Density: 0.00125g/mL (N gas)
2
Melting Point: -272.2 ºC Melting Point: -209.86 ºC (N gas)
2
7 -1 7 -1
Conductivity (x 10 ): 0.00 (Ωm) Conductivity (x 10 ): 0.00 (Ωm)
Atomic Radius: 0.049 nm Atomic Radius: 0.075 nm
Electronegativity: 0.00 Electronegativity: 3.04
st st
1 Ionization Energy: 2372.2 kJ/mol 1 Ionization Energy: 1402.3 kJ/mol
Li- Lithium O- Oxygen
Atomic Number: 3 Atomic Number: 8
Density: 0.534g/mL Density: 0.001429 g/mL (O gas)
2
Melting Point: 180.54 ºC Melting Point: -218.4 ºC (O gas)
2
7 -1 7 -1
Conductivity (x 10 ): 1.17 (Ωm) Conductivity (x 10 ): 0.00 (Ωm)
Atomic Radius: 0.205 nm Atomic Radius: 0.065 nm
Electronegativity: 0.98 Electronegativity: 3.44
st st
1 Ionization Energy: 520.2 kJ/mol 1 Ionization Energy: 1313.9 kJ/mol
Be- Beryllium F- Fluorine
Atomic Number: 4 Atomic Number: 9
Density: 1.85g/mL Density: 0.00169 g/mL
Melting Point: 1278 ºC Melting Point: -219.62 ºC
7 -1 7 -1
Conductivity (x 10 ): 2.50 (Ωm) Conductivity (x 10 ): 0.00 (Ωm)
Atomic Radius: 0.140 nm Atomic Radius: 0.057 nm
Electronegativity: 1.57 Electronegativity: 3.98
st st
1 Ionization Energy: 899.4 kJ/mol 1 Ionization Energy: 1680.9 kJ/mol
B- Boron Ne- Neon
Atomic Number: 5 Atomic Number: 10
Density: 2.34 g/mL Density: 0.000900 g/mL
Melting Point: 2300 ºC Melting Point: -248.67 ºC
7 -1 7 -1
Conductivity (x 10 ): 0.00 (Ωm) Conductivity (x 10 ): 0.00 (Ωm)
Atomic Radius: 0.117 nm Atomic Radius: 0.051 nm
Electronegativity: 2.04 Electronegativity: 0.00
st st
1 Ionization Energy: 800.6 kJ/mol 1 Ionization Energy: 2080.6 kJ/mol
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