Periodic Table Funsheet (KEY) 1. What family has the most active

... 16. As you go from left to right across the periodic table, the elements go from (METALS / nonmetals) to (metals / NONMETALS). 17. The most active element in Group 17 is FLUORINE. 18. What sublevels are filling across the Transition Elements? d 19. Elements within a group have a similar number of VA ...

Chapter 4 - Blair Community Schools

... Most common element in the universe Unique properties, separate classification. ...

Elements of the Periodic Table

... group to the right side of the Periodic Table (18). All of the noble gases are colorless, odorless and in a gaseous state at room temperature, and being gases, they have extremely low boiling points. They also have high ionization energies and low electronegativity. The Noble Gases are relatively no ...

Relationships in The PeriodicTable

... energy, the stronger the attraction between the nucleus and an electron. Electron affinity is a measure of the tendency of an atom to gain an electron. ...

Ch 5 Notes

... • Physical Properties: high luster (shiny), conductive (heat and electricity), malleable (bendable), ductile (stretchable), high density, high melting point • Chemical Properties: Most will react with oxygen ...

Name: Chemistry A Date: Period: Unit 1 Test Review Packet

... 7. Draw the Bohr electron configuration for phosphorus (before it satisfies the Octet Rule). ...

The Periodic Table

... The noble gases (inert gases) are the elements in Group 8A of the periodic table. S & P sublevels are completely filled with electrons.  Due to filled outer energy level, noble gases do not readily react with other elements. ...

Periodicity

... elements so as to keep elements in columns with similar properties. • This was contrary to all other chemists who arranged elements according to increasing atomic mass. • He boldly pronounced that perhaps the calculated atomic masses for those mixed up elements should be recalculated • Mendeleev als ...

How are properties of atoms used to organize elements into the

... • represents the number of energy levels that contain electrons • FAMILES – columns or groups on the periodic table (up and down) • represents the number of electrons in the outermost energy level • Atoms in the same families have the same number of electrons in their outer energy level. • This char ...

Chapter 6 lecture 2013

... are brittle ...

1 CHAPTER 5 – THE PERIODIC LAW What types of useful

... A. Before the Periodic Table was invented, about 63 elements were known. However, they were not organized and only random properties were known about each of the elements. Scientist (who are always looking for patterns) wanted to organize these. B. Dmitri Mendeleev – he made cards for all 63 known e ...

Chapter 6 Study Guide

... The code letters A to Z have been assigned to the first 26 elements in the periodic table. The code letters do not represent the chemical symbols, nor have the letters been assigned in alphabetical order. These letters are presented in groups and your assignment is to arrange these elements in the ...

Periodicity Review - Dr. Antony`s Chem Help

... 12. The succession of elements within a group demonstrates characteristic trends in properties. As you progress down a group:  atomic radius increases. As we add electrons we are also adding energy levels as we go down the group with an increased shielding effect from the inner electrons leading t ...

2012 chapter 4 study guide

... 6. how to designate an isotope. (Name of element with the mass number) Show carbon as an example ...

Chapter 5 - The Periodic Law

... Moseley and the Periodic Table (1911) A. Protons and Atomic Number 1. Xray experiments revealed a way to determine the number of protons in the nucleus of an atom 2. The periodic table was found to be in atomic number order, not atomic mass order a. The tellurium-iodine anomaly was explained B. The ...

Ch-6 - Stout Middle School

... Without looking at the periodic table, determine the group, period and block in which strontium is located. [Kr] 5s2 Group: superscript 2 = valence electrons Period: coefficient of 5, so 5th period Block: s-block ...

The Periodic Table and Trends of the Elements

... satisfy the octet rule. When they do they gain a -1 oxidation state. They usually bond with alkali metals to form salts. By themselves, halogens are diatomic molecules. ...

Trends on the Periodic Table

... Properties of Families Alkali metals (1)—The most reactive metal family, must be stored under oil because they react violently with water! They dissolve and create an alkaline, or basic, solution, hence their name. Alkaline earth metals (2)—These also are reactive metals, but they don’t explode in ...

PART 1: ATOMIC NUMBER - hrsbstaff.ednet.ns.ca

... 2. Find all of the gasses in the periodic table and with a black pencil crayon, outline each of them on the above table. 3. In the table below, indicate which gasses are located in each of the periods. Your table will not have elements in every blank space. ...

Periodic Trends

... predicted the properties of 2 at the time undiscovered elements. •  He was very accurate in his predictions, which led the world to accept his ideas about periodicity and a logical periodic table. ...

Periodic Table of Elements

... What’s in an atom??  The protons and neutrons are in the center of the atom which is called the nucleus  The electrons are found outside of the nucleus  Protons have a positive charge  Neutrons have a neutral charge  Electrons have a negative charge ...

Study Guide Answers

... Metalloids are located on either side of the Boron Stair step have properties of both metals and nonmetals. ● they are solids that can be shiny or dull ● they conduct heat and electricity better than nonmetals, but not as well as real metals ● they are ductile and malleable What is the difference be ...

The perfect K-12 presentation ever (replace this with your title)

... Red Giants Main Sequence Stars, such as Red Giants, derive their energy from hydrogen fusion. ...

(2) for each

... Noble Gases are colorless gases that are extremely unreactive. One important property of the noble gases is their inactivity. They are inactive because their outermost energy level is full. Because they do not readily combine with other elements to form compounds, the noble gases are called inert. T ...

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Noble gas

The noble gases make a group of chemical elements with similar properties. Under standard conditions, they are all odorless, colorless, monatomic gases with very low chemical reactivity. The six noble gases that occur naturally are helium (He), neon (Ne), argon (Ar), krypton (Kr), xenon (Xe), and the radioactive radon (Rn).For the first six periods of the periodic table, the noble gases are exactly the members of group 18 of the periodic table.It is possible that due to relativistic effects, the group 14 element flerovium exhibits some noble-gas-like properties, instead of the group 18 element ununoctium. Noble gases are typically highly unreactive except when under particular extreme conditions. The inertness of noble gases makes them very suitable in applications where reactions are not wanted. For example: argon is used in lightbulbs to prevent the hot tungsten filament from oxidizing; also, helium is breathed by deep-sea divers to prevent oxygen and nitrogen toxicity.The properties of the noble gases can be well explained by modern theories of atomic structure: their outer shell of valence electrons is considered to be ""full"", giving them little tendency to participate in chemical reactions, and it has been possible to prepare only a few hundred noble gas compounds. The melting and boiling points for a given noble gas are close together, differing by less than 10 °C (18 °F); that is, they are liquids over only a small temperature range.Neon, argon, krypton, and xenon are obtained from air in an air separation unit using the methods of liquefaction of gases and fractional distillation. Helium is sourced from natural gas fields which have high concentrations of helium in the natural gas, using cryogenic gas separation techniques, and radon is usually isolated from the radioactive decay of dissolved radium, thorium, or uranium compounds (since those compounds give off alpha particles). Noble gases have several important applications in industries such as lighting, welding, and space exploration. A helium-oxygen breathing gas is often used by deep-sea divers at depths of seawater over 55 m (180 ft) to keep the diver from experiencing oxygen toxemia, the lethal effect of high-pressure oxygen, and nitrogen narcosis, the distracting narcotic effect of the nitrogen in air beyond this partial-pressure threshold. After the risks caused by the flammability of hydrogen became apparent, it was replaced with helium in blimps and balloons.

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Noble gas