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RESOURCES SECTION B Periodic Trends. Why are the elements placed the way they are on the periodic table?. PERIODIC TABLE - DEVELOPMENT. Dalton’s periodic table. John Dalton. What are the physical and chemical properties of:. METALS NON-METALS METALLOIDS.
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RESOURCES SECTION BPeriodic Trends • Why are the elements placed the way they are on the periodic table?
PERIODIC TABLE - DEVELOPMENT Dalton’s periodic table John Dalton
What are the physical and chemical properties of: • METALS • NON-METALS • METALLOIDS
How do you determine which category (metal, non-metal, or metalloid) the elements are in from the Periodic Table?
Who is considered the father of the Periodic Table? • In what two major ways did he organize the elements known at the time? • Increasing atomic mass • The way they combine with other elements • How was he able to determine that there were elements “missing” that had not even been discovered yet? • How was Mendeleev’s original Periodic Table different from the modern Periodic Table that we use today? Mendeleev
There are two numbers given in each square for each element on all Periodic Tables, what are they, what do they mean, and how can you tell them apart? ATOMIC NUMBER: The whole number, tells how many protons in the element (and thus electrons) MASS NUMBER: The non-whole number, tells the mass of the element (protons + neutrons) 3 Li 6.941
Practice #1 • How many total electrons does a neutral Magnesium atom have? • 12 • What about Silicon? • 14 • How many protons in Bromine? • 35 • How many neutrons in Krypton? • 48
Why is the periodic table arranged the way it is? • Notice in a neutral atom the # of electrons = # of protons. • Sodium has 11 negative charges and 11 positive charges. Na
Alkali Metals Alkaline Earth Metals Noble Gases Halogens Transition Metals Lanthanide and Actinide
NEW ELEMENTS!! • WOMANIUM (WO)Physical properties: Generally soft and round in form. Boils at nothing and may freeze any time. Very bitter if not used well. Chemical properties: Very active and highly unstable. Possesses strong affinity with gold, silver, platinum, and precious stones.. Turns slightly green when placed next to a better specimen. Usage: An extremely good catalyst for dispersion of wealth. Caution: Violent when left alone • MANIUM (XY)Physical properties: Solid at room temperature but gets bent out of shape easily. Difficult to find a pure sample. Chemical properties: Attempts to bond with WO any chance it can get. Becomes explosive when mixed with Childrium for prolonged period of time. Usage: Possibly good methane source. Caution: In the absence of WO, this element rapidly decomposes and begins to smell.
PARTICLE LOCATION CHARGE MASS Proton nucleus + 1 amu Neutron nucleus 0 1 amu Electron Outside nucleus - 0.00054 amu Subatomic Particles
Symbol Name Protons (Atomic Number) Neutrons Mass Number Electrons 73Li Lithium -7 3 4 7 3 146 C Carbon-14 6 8 14 6 6731Ga Gallium -67 31 36 67 31 Common Isotopes Isotopes of Particular interest – C-14 used in radiocarbon dating I-131 used in thyroid cancer treatment U-235 used in nuclear power
Why is the periodic table arranged the way it is? • Sodium (Na) has one electron in its outermost shell. • So do all the other elements in Group 1A. Na
Practice #1 • How many electrons does Magnesium have in its outer shell? • 2 • What about Silicon? • 4 • Bromine? • 7 • Neon? • 8
USING AN ACTIVITY SERIES • Activity series can be used to determine whether a single replacement reaction will occur ….or not • Stronger elements (above other elements on the chart) will replace weaker ones (below other elements on the chart) in a “relationship” Link to Activity Series
COMBINATION (Synthesis) • A + B = AB • DECOMPOSITION • AB = A + B • SINGLE REPLACEMENT • A + BC = AC + B • Use Activity Series to Determine if this will occur • DOUBLE REPLACEMENT • AB + CD = AD + CB • Use Solubility Table to determine Precipitiate formation • COMBUSTION • CxHy + O2 = CO2 + H2O • A + O2 = AxOy LINK TO TYPES OF REACTIONS
USING AN ACTIVITY SERIES • Activity series can be used to determine whether a single replacement reaction will occur ….or not • Stronger elements (above other elements on the chart) will replace weaker ones (below other elements on the chart) in a “relationship” Example: Cu + Ag(NO3) Cu(NO3) + Ag Link to Activity Series