Minggu, 08 Juli 2012

learning plant Introduction of periodic table


LEARNING PLAN
School                         : Senior High School
Subject                       : CHEMISTRY
Class / Semester        : X / 1
Allocation of Time     : 2 x 45 minutes

A.    Competency Standards
Describe 
B.    Basic Competences
Classified type molecule in periodic table.
C.     Competency Achievement Indicators
a.     Cognitive Products
·         Comparing the development of periodic table elements to identify the advantages and disadvantages
b.     Cognitive Processes
·         Explain the basis of grouping elements
c.      Psychomotor
·         Giving attention to the discussion group
d.     Affective
·         Active in such class shall ask, accounts for an idea or opinion, there is communication, and being a good listener.
D.    Learning Objectives
a.        Knowledge: products
·         Independently students can compare the development of periodic table elements to identify the advantages and disadvantages
b.     Knowledge: the process
·         Students can categorize the binary compounds, ternary compounds and organic compounds
·         Students can distinguish ionic compounds based on the amount of cargo
c.       Psychomotor
·         Students can pay attention to the discussion group
d.      Affective
·         Students involved in the learning process by demonstrating its activity in the classroom as he has not asked to understand, contribute opinions or ideas when there is a problem or question, listen carefully and there is communication.
E.     Description of Learning Materials
Development of the Periodic System of Chemical Elements
System elements are a periodic table containing all the chemical elements known by the IUPAC. In the periodic table, chemical elements are grouped according to similarities in character.
The development of the Periodic System of Chemical Elements
1.      Grouping Element Method Lavoisier
French chemist, Antoine Lavoiser, in 1869 defines the element as a substance that can not be described again into simpler substances. It was stated in his book Traité de Chimie Elementaire. Lavoiser make a list of 33 chemical elements are grouped into a gas, non-metals, metal and earth.
Grouping the elements according to Lavoisier Chemistry
Group
Gas
Nonlogam
Logam
Tanah
Member of The Group
Cahaya
Kalor
Oksigen
Nitrogen
Hydrogen
Sulfur
Fosfor
Karbon
Asam klorida
Asam fluoride
Asam borak
Antimon
Arsen
Kobalt
Timah
Mangan
Molibdenum
Emas
Timbel
Seng
Raksa
Bismut
Tembaga
Besi
Perak
Nikel
Platina
Tungsten
Kapur (kalsium oksida)
Magnesia (magnesium oksida)
Barit (barium oksida)
Alumina (alumunium oksida)
Silica (silicon oksida)








2.      Grouping Element Method Dobereiner
In 1817, German scientist, Johann Wolfgang Dobereiner,, making the grouping of chemical elements. Dobereiner way to group different elements by Lavoisier. Dobereiner grouping every three chemical elements that are similar to one group (triad) of increasing atomic weight. Grouping of chemical elements according to known Dobereiner dobereiner Triad Law.

Beberapa Triad Unsur-Unsur Kimia
Triad 1
(Logam Alkali)
Triad 2
(Logam Alkali Tanah)
Triad 3
(Halogen)
Triad 4
(Golongan VIA)
Litium 7
Natrium 23
Kalium 39
Kalsium 40,08
Stronsium 87,62
Barium 137,34
Klorin 35,45
Bromine 79,91
Iodine 126,90
Sulfur 32,06
Selenium 78,96
Telurium 127,60

However, the weakness of law since the invention of triads are new elements. Many elements that have similar properties, but there are more than 3.

3.      Chancourtois way of grouping elements (Telluric Spiral de Chancourtois)
In 1862, French geologist, Alexander Beguyer de Chancourtois, classifying the chemical elements of increasing atomic weight. Chemical elements arranged to form a spiral.
Atomic weight = 7 + 16N
Description:
n = order of elements

4.      The way of grouping elements Newlands (Law Octave)
John Alexander Reina Newlands was an English chemist Newlands is known for his ideas about the grouping of chemical elements known as the theory of octaves.
Newlands classifying the chemical elements of increasing atomic weight. Newlands discovered the relationship between nature and the elements of western atom increases. The properties of the elements will be repeated on the elements of the eighth (octave) so that the eighth element would have properties similar to the first element.

Clustering of Chemical Elements Octave Legal Newlands
H 1
F 8
Cl 15
Co/Ni 22
Br 29
Pd 36
I 42
Pt/Ir 50
Li 2
Na 9
K 16
Cu 23
Rb 30
Ag 37
Cs 44
Tl 53
G 3
Mg 10
Ca 17
Zn 25
Sr 31
Cd 31
Ba/V 45
Pb 54
Be 4
Al 11
Cr 18
Y 24
Ce/La 33
U 40
Ta 46
Th 56
C 5
Si 12
Ti 19
In 26
Zr 32
Sn 39
W 47
Hg 52
N 6
P 13
Mn 20
As 27
Dy/Mo 34
Sb 41
Nb 48
Bi 55
0 7
S 14
Fe 21
Se 28
Rh/Ru 35
Te 43
Au 49
Os 51
Newlands law of octaves weakness is only valid for the first 17 ​​elements, namely from hidrogan to calcium. In addition, the law of octaves also does not provide room for new elements are discovered.

5.      Periodic Table Mendeleev and Meyer
In 1869, Dmitri Mendeleev of Russia and Julius Lothar Meyer of Germany to find new ways to arrange the chemical elements.
a.      Mendeleev Periodic Table
Mendeleev found that if the elements are arranged according to increasing atomic mass, then the elements with similar properties will be arranged periodically.
Referring to the properties of elements, Mendeleev arrange the elements using a card whose number equals the number of elements then known. Mendeleev grouped the elements into multiple lines. Elements located in the same column have similar properties.

b.      Periodic Table Meyer
In 1864, Meyer compiled based on the valence of the element 28 in the form of tables. Meyer puts the elements with the same valence in one column.
6.      Grouping Elements Moseley Method
Moseley arrange the elements of increasing atomic number in the form of periodic table.

7.      Grouping Element Method Seaborg (Modern Periodic Table)
In 1940, Glenn Seaborg discovered transuranium elements, ie elements with atoms of 94-102. Modern periodic table are arranged Seaborg consists of 7 periods and 18 columns.
Based on the modern periodic table, elements are grouped into main groups (groups IA to VIIIA) and transition groups (groups IB to VIIIB). In the main groups, each group having a distinctive name in accordance with the nature of its members, is as follows.
Group I A         : alkali group
Group II A        : alkaline earth group
Group III A       : boron group
Group IV A       : group carbon
Group V A        : nitrogen group
Group VI A       : oxygen group
Group VII A      : halogen group
Group VIII A     : noble gas group

Transition elements were among the group IIA - IIIA. There are two lines of elements are placed below the main part of the table. Umsur-elements are located following the lines of lanthanum and actinium, then the first line (58-71) called the lanthanides and the second line (90-103) are called actinides.



F.     Learning methods
a.       Learning approach            : the concept and process approach
b.      Learning model                 : model of student teams-Achievement Division (STAD)
c.       Methods                            : Methods of discussion and information

G.    learning activities
Activity
Phase

Activities of teachers


Student activities


Allocation of Time

Done / Not
Introduction

Orientation
Greeting, checking attendance, conveying learning objectives

Listen and find out the learning objectives
2 minutes

Apersepstion
Ask the students about the chemical bonds that have been studied in previous chapters.

Disclose and answer questions from the teacher.
5 minutes

Motivation
Through questions and answers in class, directing students' thoughts about the chemical elements that exist in nature.
Notice and answer questions from the teacher
3 minutes

Giving Reference
§  Divide each group of 5 people and divide the tasks in each group to find a way of grouping elements Lavoisier, Dobereiner, Chancourtois, Newlands, Mendeleev, Meyer, Moseley, and Seaborg.
§  Ask each group to be responsible for terselesainya tasks assigned within the time specified by the teacher
§  attention to the direction of the teacher presented
5 minutes






 
core activities
Eksploration
Teachers described the development element of the periodic  system
Listen carefully and directs his thoughts on the matter in teaching.
25 minutes

Elaboration

Guiding students to find the task group is a way of grouping elements Lavoisier, Dobereiner, Chancourtois, Newlands, Mendeleev, Meyer, Moseley, and Seaborg
Looking for group work quickly to finish on time and immediately returned to the classroom.
15 minutes

Confirmation
§ Asked each group to present representative of the results that have been discussed about the grouping of chemical elements.
§ Check the truth of the discussion groups and provide opportunities for students to ask about the difficulties faced by students.
§  Ask, answer and pay attention to information in the discussion.
20 minutes

Evaluation
Teachers give students questions
1.    to explain the basics of grouping the elements according to Newlands!
2.     What is the difference between the Mendeleev periodic table and meyer?
Answering a question the teacher and not discuss with friends
10 minutes


cover

Reflection
Correcting the error response and announce the majority of students in answering questions.
Rest in class and listen to the announcement of the teacher.
5 minutes

Straighten out the error when the majority of students answer questions and help students conclude the subject matter
Attention to the subject matter and concluded

5  minutes


H.    Assessment Of Learning Outcomes


§  Assessment indicators
No
Aspects
Indicators of achievement of competencies
assessment indicators
Type / assessment techniques
forms of assessment

1.
Kognitif (products)
§ write the name of a specific group for the main group elements in the periodic table?
§ mention of the chemical elements are grouped by similarity in nature?
§ Identify the elements grouped by similarity in nature?                          
C1



C1




C1
 Test



Test




Test 
Written

Written



Written


Cognitif (process)
§ Grouping defines the way

§  Exemplifying a way of grouping elements
C2


C2


 Test


Test
Oral


Written

2.
Physicomotor
§  Giving attention to the discussion group
P1
No tes
observation of performance
3.
Affective
§  Reporting the results of group discussions on examples of binary compounds, ionic compounds, ternary compounds and organic compounds
§  Answering questions about the nomenclature of simple compounds
A2






A2
No tes






Test
Systematics of writing, attitude measurement and assessment of self
Oral dan Written
§  Problem (attached)
§  Key answers (attached)




I.       Source of Learning
§  Book Package Chemistry (grants)
§  Media other information relevant to the material covered




       Knowing                                                                                ....................,.........
    Head Master                                                                                        Teacher



(                            )                                                                       (                                   )

                                                                 APPENDIX


1.      Write down some of the chemical reaction results from some of the elements with chlorine gas by Mendeleev!
2.      Write the name of a specific group for the main group elements in the periodic table!
3.      Called What elements are located following the lines of lanthanum and actinium?
4.      What is the law of triads Dobereiner? Explain!
5.      Explain the grouping of chemical elements according to Antoine Lavoiser!


ANSWER
1.         Some compounds were CaCl2, MgCl2, CaCl2, and SrCl2.
2.         Name of a typical class is as follows.
Group I A               : alkali group
Group II A              : alkaline earth group
Group III A             : boron group
Group IV A             : group carbon
Group V A              : nitrogen group
Group VI A             : oxygen group
Group VII A            : halogen group
Group VIII A           : noble gas group
3.         The elements are located following the lines of lanthanum and actinium, then the first line is called the lanthanides and actinides is called the second line.
4.         Dobereiner grouping every three chemical elements that are similar to one group (triad) of increasing atomic weight. Grouping of chemical elements according to known Dobereiner dobereiner Triad Law.

Triad 1
(Logam Alkali)
Triad 2
(Logam Alkali Tanah)
Triad 3
(Halogen)
Triad 4
(Golongan VIA)
Litium 7
Natrium 23
Kalium 39
Kalsium 40,08
Stronsium 87,62
Barium 137,34
Klorin 35,45
Bromine 79,91
Iodine 126,90
Sulfur 32,06
Selenium 78,96
Telurium 127,60


5.         Grouping Elements of Chemistry By Lavoisier
Group
Gas
Nonlogam
Logam
Tanah
Member of the Group
Cahaya
Kalor
Oksigen
Nitrogen
Hydrogen
Sulfur
Fosfor
Karbon
Asam klorida
Asam fluoride
Asam borak
Antimon
Arsen
Kobalt
Timah
Mangan
Molibdenum
Emas
Timbel
Seng
Raksa
Bismut
Tembaga
Besi
Perak
Nikel
Platina
Tungsten
Kapur (kalsium oksida)
Magnesia (magnesium oksida)
Barit (barium oksida)
Alumina (alumunium oksida)
Silica (silicon oksida)




























Behavioral Observation Format Character

Description:

4 = very good
3 = satisfactory
2 = Indicates Ability
1 = Needs Improvement

No
Task Performance Details
4
3
2
1
Information
1
honest





2
responsibility





3
Caution





4
thorough


















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