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Elemental Crazy Eights
Periodic Table Memory Mnemonics
Topics: Periodic Table,
Chemical Symbols,
Properties
Materials List
Color copy of Periodic Table Memory Pegs design by John P. Pratt, art by David R. Pratt www.johnpratt.com/atomic/periodic.html
Periodic Table
Memory Pegs Play card games using unique pictures and impart a vivid and lasting impression on
(page 7) students through fun memory pegs (mnemonics) for the atomic number with
Memory Peg corresponding chemical name and symbol for the elements in the periodic table.
descriptions (pages Assembly
3 to 6) 1. Print out a color copy of the Periodic Table Memory Pegs (page 7).
Color copy of 2. Cut out the pictures of the elements to be memorized. (Suggestion: use the first
Blank playing cards 36 elements initially to familiarize the students with the atomic number, chemical
Scissors name and symbol before adding other elements of interest to the deck).
Clear adhesive tape 3. Use tape to attach the pictures to playing cards - one picture per card.
Playing the Game (for 2-4 players)
1. Prior to playing the game, go over the description of the Memory Pegs (page 3 to
6) to allow students to digest the unique association between each picture and its
atomic number, chemical symbol, and chemical name.
2. Players each draw a card to determine who will be the dealer. The one with the
highest atomic number deals 5 cards to each player and then turns the top card
This activity can be used face up from the remaining deck of cards to be the “starter” card. If the top card is
to teach: one of the noble gasses (Group 8 elements are “wild”) the card is buried into the
deck of cards and the next top card is turned over.
Structure of matter 3. The player clockwise from the dealer goes first, with play moving clockwise.
(Next Generation 4. Each player takes a turn and discards a card that matches the top card on the
Science Standards: discard pile in any one of the following five ways:
Grade 5, Physical a. same last digit of the atomic number (e.g., 2, 12, 22)
Science 1-1, Middle b. same first letter of the chemical name (e.g., Sodium, Silicon, Sulfur)
School, Physical c. same first letter of the chemical symbol (e.g., N, Ne, Na, Ni)
Science 1-1) d. same element period (e.g., Period 2: Li, Be, B, C)
Periodic Table (Next e. any element that is a noble gas (e.g., Group 8: H, He, Ne, Ar)
Generation Science 5. A player who cannot match the top card on the discard pile in any of the above
Standards: High five ways, must draw cards until a match can be played. When the deck of cards
School, Physical runs out, a player without a match must pass.
Science 1-1)
6. Any wild card can be played as a valid match to any card during a player’s turn.
When discarding a wild card, the player gets to choose the “period”. The next
player must play either a card from that “period” or another wild card.
7. The first player to discard their last card is the winner. Count the number of cards
in the other players’ hands and assign that number of points to the winner. If no
one can make any more plays, end the round and declare the one with the fewest
cards as the winner of the round. Record the winner and the points in each round.
8. After playing eight rounds the person with the highest point total wins the game.
Written by Gus Liu, based on the work of John P. Pratt and David R. Pratt, used with permission Copyright 2015, RAFT
The Science Behind the Activity
Elements are basic units of matter, each is a pure substance that cannot be broken down into a simpler substance,
which are the building blocks for everything in the universe. The atom is the smallest unit of an element that
retains the properties of the element and is made up of three kinds of particles; protons, neutrons, and electrons.
The atomic number of an element indicates the number of protons in the nucleus of each atom of the element as
well as the number of electrons surrounding each nucleus.
Scientists during the 19th century began organizing these elemental substances as they gained a better
understanding of atomic structures and how the elements combined to create molecules of other more complex
substances. In 1869 a Russian scientist, Dmitri Mendeleyev, found that the chemical properties of the elements
went through repeating cycles and he organized the known elements into a chart (table) based on their chemical
properties.
Each element was given a 1 or 2-letter symbol, with the first letter always a capital, while the second letter, if
present, in lower case. Some elements are named after countries, places, or scientists (e.g., Berkelium was made
at UC Berkeley, CA; Germanium was discovered by a German chemist; Einsteinium was named after Albert
Einstein). Others were inspired by heavenly bodies (e.g., Helium from the Greek word “helios” for sun) or by
mythology (e.g., Titanium is named after “titans”, Greek supermen). Other elements have names that describe
their properties (e.g., Hydrogen from the Greek words “hydro” and “genes”, with respective meaning of “water”
and “forming”. Some chemical symbols are based on ancient names (e.g., Na, sodium, is an abbreviation for the
Latin word “natrium”). Each element has a unique combination of physical and chemical properties which can be
used to identify the substance, including boiling point, density, chemical reactivity, and conductivity of electricity
and heat.
Taking it Further
For more advanced students who enjoy a challenge play Periodic Table BINGO: distribute standard 5 x 5
bingo cards (numbers 1-75) to each student and then call out either the element’s chemical name or its
symbol. Students must correctly identify the corresponding atomic number of the element and circle that
number on their own BINGO card. Five numbers in a row, horizontal, vertical or diagonal, results in a loud
voice claiming BINGO and winning the round.
Print atomic numbers 1 through 40 on separate slips of paper and place in a box. Have each of the students
pick a number and then individually design a unique picture for that element. The students have to provide
their own reasons as to why the picture would serve as a good mnemonic for the atomic number, the
chemical name, and symbol.
For more chemistry games see RAFT Idea Sheets Element Match and Match 3 for Chemistry.
Web Resources (Visit www.raft.net/raft-idea?isid=589 for more resources!)
For more information on the properties of elements and for printable periodic tables, go to:
http://www.webelements.com/
http://www.chemicalelements.com/index.html#
For Short videos about every element on the periodic table, plus other cool experiments:
http://www.periodicvideos.com/#
To find out more about an element's properties, how the element was discovered, history and uses, and why it
was given its unique name, click on the symbol for that element in the following periodic table.
http://education.jlab.org/itselemental/index.html
http://www.nexusresearchgroup.com/fun-science/the-elements.htm
Periodic Table Memory Pegs design by John P. Pratt with artwork by David R. Pratt as found at:
www.johnpratt.com/atomic/periodic.html
Elemental Crazy Eights, page 2 Copyright 2015, RAFT
Description of the Memory Pegs for the first 80 elements in the periodic table:
Elemental Crazy Eights, page 3 Copyright 2015, RAFT
Elemental Crazy Eights, page 4 Copyright 2015, RAFT
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