Explaining Patterns in the Periodic Table

by carolinastaff
atomic structure

Identifying family and period properties within the periodic table

Too often, students remember for a short time certain trends and properties associated with groups and periods of elements yet come away from a study of the periodic table without really understanding or appreciating how much information the table provides.

In the following activities, students discover for themselves several trends associated with the elements on the periodic table.

In Activity 1, students create an organized table from the elements’ electron configurations.

Then in Activity 2, they create 3 graphs showing the relationship between elements’ atomic numbers, atomic radii, electronegativity, and number of valence electrons. The activities are appropriate for a class of high school students working in pairs.

These instructions are written for use with pencil and paper but can be easily modified according to the technological resources at your disposal.

Next Generation Science Standards
Grades 912
Physical Science/Chemistry
Disciplinary Core Idea: PS1.A: Structure and Properties of Matter


  • Element Lists (2 types)

  • Index Cards or Blank White Paper

  • Construction Paper

  • Scissors

  • Glue or Stapler

  • Access to Graphing Software or Graph Paper

  • Pencils (optional)


  1. Gather all the materials needed.
  2. Create two different element lists, and make enough copies for each student pair to have one of each.

For Element List 1, list the first 20 elements’ names, symbols, and electron configurations in random order. A portion of such a list follows:

Calcium (Ca)

Nitrogen (N)

Sulfur (S)

For Element List 2, list the first 36 elements’ names; symbols; atomic numbers; atomic radius values; electronegativity values; and, for only the first 20 elements, the number of valence electrons.

3. Create a central activity station where students can collect the following:

For Activity 1:

  • Element Lists (2 types)
  • Index Cards or Blank White Paper
  • Construction Paper
  • Scissors
  • Glue or Stapler

For Activity 2:

  • Element List 2 (with atomic number, atomic radius, electronegativity, and number of valence electrons)
  • Graph Paper (or graphing software)
  • Pencils (optional)


  1. Divide your class into pairs.

  2. Explain to students that in Activity 1, they are to create an organized table from the information in Element List 1, based on a trend or pattern they see in the elements’ electron configuration.

  3. In Activity 2, have students examine Element List 2 and create 3 graphs, each showing the relationship between the elements’ atomic numbers and a different feature: atomic radius, electronegativity, and number of valence electrons. Have students place the atomic number on the x-axis in each of these graphs and to label them clearly for ease of interpretation. Note: For the graph with valence electrons, students should use only the first 20 elements.

  4. From their graphs in Activity 2, have students identify any trends for each data set. Define and identify for students a group and a period on the periodic table. Ask students to determine trends for a group and a period.

  5. Display a complete periodic table, and follow these activities with an in-depth discussion of the discovery of trends and the creation of the periodic table.

  • As part of your discussion, have students relate the organized table from Activity 1 to the number of valence electrons.

  • When introducing the concept of ions and chemical bonding, have students revisit their organized tables showing electron configuration to help them explain the number of electrons involved in a chemical reaction.

  • Have students research specific groups of elements and identify their common properties.

Related products

Periodic Table Inquiry Kit

Mendeleev Periodic Table Simulator

Magnetic Periodic Table

Inquiries in Science®: Interpreting the Periodic Table Kit

Carolina ChemKits™: Discovering the Periodic Table

Based on an activity by

Chuck Roser
Retired Chemistry Instructor
North Carolina School of Science and Mathematics

Additional Reading: 10 Tips for Creating Social Distance in Your Science Classroom

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