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History of the Periodic Table. Who developed the first periodic table? Dobereiner (Germany, 1817) noticed that atomic mass of Sr was closely related to.

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Presentation on theme: "History of the Periodic Table. Who developed the first periodic table? Dobereiner (Germany, 1817) noticed that atomic mass of Sr was closely related to."— Presentation transcript:

1 History of the Periodic Table

2 Who developed the first periodic table? Dobereiner (Germany, 1817) noticed that atomic mass of Sr was closely related to the atomic mass of Ca and Ba. He called this grouping a triad. Several other triads were created based on his system but eventually there were not enough triads to make the system useful.

3 Who developed the modern periodic table? Dmetri Mendeleev (Russia) and Lothar Meyer (Germany) both published almost identical systems of classifying elements. Arranged periodic table based on their physical and chemical properties and atomic mass.

4 Why was Mendeleev credited with the periodic table? He insisted that elements be grouped together by properties and thus by family. The gaps in his periodic table were actually elements yet to be discovered!! He was able to predict the properties of these undiscovered elements.

5 Prediction of Germanium’s Properties PropertyMendeleev’s PredictionObserved Properties Atomic Weight7272.59 Density5.55.35 Specific Heat0.3050.309 Melting pointHigh947C ColorDark grayGrayish white Formula of oxideXO 2 GeO 2 Density of oxide4.74.70 Formula of ChlorideXCl 4 GeCl 4 Boiling point of chlorideA little under 10084C

6 Periodic Law Mendeleev stated that the physical and chemical properties of elements vary periodically with increasing atomic mass.

7 How were the table and atomic numbers proven? Two years after Rutherford created his atomic model, Robert Moseley developed the concept of atomic numbers. He bombarded elements with high energy electrons and measured the frequency of x-rays given off. Then he arranged the elements in order according to the frequency given off. It was then concluded that as the atomic mass of the elements increased the frequency also increased. Moseley then assigned a unique whole number to each element and called it the atomic number.

8 How did this change the Mendeleev’s Periodic Table? This allowed elements such as Argon, which has a greater atomic mass, to be placed before Potassium. It also allowed others to determine fully the number of “holes” in the periodic table.

9 Glenn Seaborg and Actinoid Series After discovering U, Th, Pa, Seaborg was advised to revise the periodic table. After examining the properties of the elements, Seaborg was convinced that the elements were part of the inner transition elements because they behaved similarly to other transition metals. Instead of creating a new system, he integrated the elements into a new section called the actinoid series, which would be inserted into the transition elements.

10 Modern Periodic Law Elements are placed on the table according to increasing atomic number. Trends and properties are a result of the similar atomic structure in a family.

11 Metals And Non-metals

12 Metals and Non Metals For the following, write ‘M’ if it applies to metals, and ‘NM’ if it applies to nonmetals: –____ have luster or shine –____ can be gases at room temperature –____ good conductors of heat and electricity –____ high melting points –____ ductile and malleable –____ are found on the right side of the periodic table What about metalloids?

13 Classification of Elements Chapter 14.1

14 Classification of Elements

15 Alkali Metals ____ column ___-block # of valence electrons ____ How many valence electrons would it like to have ______ What it will do to follow the Octet Rule ______ Charge of ion formed______

16 Alkaline Earth Metals ____ column ___-block # of valence electrons ____ How many valence electrons would it like to have ______ What it will do to follow the Octet Rule ______ Charge of ion formed______

17 Transition and Inner Transition Metals ___, ___-blocks # of valence electrons ____ With all the d and f electrons, can these metals really ever be happy?____ What can they do? –___________________

18 Halogens 7th column (or 17th) ___-block # of valence electrons ____ How many valence electrons would it like to have ______ What it will do to follow the Octet Rule ______ Charge of ion formed______

19 Noble Gases 8th column (or 18th) ___-block # of valence electrons ____ How many valence electrons would it like to have ______ What it will do to follow the Octet Rule ______ Charge of ion formed______

20 Periodic Trends Chapter 14.2

21 Electron Shielding Electron Shielding reduces the force of the nucleus’ positive charge and its outermost electron due to cancellation of charge by inner electrons

22 Effective Nuclear Charge Effective nuclear Charge-changes because of shielding

23 Effective Nuclear Charge In many atoms, there is repulsion between electrons. Each electron is also attracted to the positive charge on the nucleus. “Effective” or actual nuclear charge (“pull”) experienced by an valence electron is lessened as a result of repulsion (“push”) from core electrons.

24 Effective Nuclear Charge Z eff = Z – S where Z is the nuclear charge and S is the shielding constant. Electrons in the same type of orbital are not effective in shielding one another. Core electrons closer to the nucleus provide effective shielding (“push”) for outer electrons. Effective nuclear charge increases from left to right in a periodic table.

25 Atomic radii

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27 Periodic Properties Atomic Radii:

28 Trend:atomic radii gets ________as ones goes down the column Reason: as one moves down the column of the PT you are adding entire _____________ ___________ of electrons, increasing the # of ______ ________________ and therefore increasing the _______________ _______________ (________), and decreasing the _____________ ____________ ______________. Trend: atomic radii gets ________ as one moves left to right Reason: as one moves left to right, you are keeping the same number of __________ electrons (________), and increasing the number of ________________ ________________ (pull), therefore increasing the ___________ _____________ ___________.

29 Atomic Radius = Snowman

30 Chapter 0630 Ions and Ionic Radii02

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33 Ions and Ionic Radii

34 Periodic Trends – Ionization Energy Ionization energy is defined as the energy required to remove the electron from an atom. As you move down a column the ionization energy _________. As you move left-to-right across a period, the ionization energy __________. R: Atoms are getting ______; ____ to lose electrons due to ____ effective nuclear charge (pull).

35 Periodic Trends – Ionization Energy Ionization energy is defined as the energy required to remove the electron from an atom. As you move down a column the ionization energy _________. As you move left-to-right across a period, the ionization energy __________. R: Atoms are getting ______; ____ to lose electrons due to ____ effective nuclear charge (pull).

36 Ionization Energy The smallest elements are really good at holding onto electrons, thus it is opposite of Atomic Radius

37 Ionization Energy The smallest elements are really good at holding onto electrons, thus the trend is opposite of Atomic Radius

38 Periodic Trends-Electronegativity Electronegativity is defined as the relative ability of an atom to attract electrons in a chemical bond. T: As you move down a column the electronegativity _______. As you move left-to-right across a row, the electronegativity _________. R: Atoms are getting ______; ____ able to attract electrons due to ____ exposure to outside world.

39 Electronegativity

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41 Periodic Trends - Reactivity Reactivity is defined as the ability for an atom to react With reactivity, we must look at the 2 separate groups metals and non-metals.

42 Periodic Trends Electronegativity Atomic Radius Ionization Energy WHY??? Reactivity


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