Chemistry Lesson Plan Based On Curriculum 2013

LEARNING IMPLEMENTATION PLAN

Subject                      : Chemistry

Class / Semester        : X / II

Sub Main Material     : Oxidation-Reduction Reaction

Time Allocation          : 1 x 45 minutes (1 x meeting)

A.    Core Competencies

1.      To live and practice the religious teachings that he embraces

2.      Living and practicing honest, disciplined, responsible, caring (polite, cooperative, tolerant, peaceful) behavior, courteous, responsive and proactive and showing attitude as part of the solution to problems in interacting effectively with the social and natural environment And in placing themselves as a reflection of the nation in the association of the world.

3.      Understand, apply, analyze factual, conceptual, procedural knowledge based on his or her knowledge of science, technology, art, culture, and humanities with the insights of humanity, nationality, state and civilization on the causes of phenomena and events, and apply procedural knowledge to the field Specific studies according to his or her talents and interests to solve problems.

4.      Processing, reasoning, and presenting in the realm of concrete and abstract realms related to the development of the self-study in the school independently, and able to use methods according to scientific rules

B.     Basic Competence

1.1  Recognizing the orderliness of the structure of material particles as a manifestation of the greatness of God YME and the knowledge of the particle structure of matter as the result of human creative thought that the truth is tentative

2.1  Demonstrate scientific behavior (having a sense of curiosity, discipline, honest, objective, open, capable of distinguishing facts and opinions, resilient, conscientious, responsible, critical, creative, innovative, democratic, communicative) in designing and experimenting and discussing embodied in attitudes daily

2.2  Demonstrate cooperative, courteous, tolerant, peace-loving and environmentally-friendly behavior and thrifty in utilizing natural resources

2.3  Demonstrate responsive and proactive and prudent behavior as a form of problem-solving ability and decision making

3.1  Analyze the development of the concept of oxidation-reduction reactions and determine the oxidation number of atoms in molecules or ions.

C.     Indicators

1.      Using the knowledge of the concept of oxidation-reduction reactions as well as determining the oxidation number of atoms in molecules or ions that are the product of human thought as a manifestation of the greatness of God Almighty

2.      Have a curiosity about the concept of oxidation-reduction reactions as well as determining the oxidation number of atoms in molecules or ions

3.      Demonstrate diligence and responsibility in learning and working both individually and in groups

4.      Distinguish the concept of oxidation and reduction in terms of the incorporation and release of oxygen, the release and acceptance of electrons as well as the increase and decrease of oxidation numbers

D.    Learning Objectives

a.       In the learning process, learners can be grateful for the grace of God for the existence of chemistry and use it as a tool in understanding, applying, and the concept of oxidation-reduction reactions as well as determining the oxidation number of atoms in molecules or ions that are the product of human thought as the form of the greatness of God Almighty

b.      In the learning process, learners can demonstrate honest, responsible, and disciplinary behaviors regarding the concept of oxidation-reduction reactions as well as determining the oxidation number of atoms in a molecule or ion

c.       After reading the development of atomic theory, learners can explain the development of atomic theory to show the weaknesses and advantages of the concept of oxidation-reduction reactions and to determine the oxidation number of atoms in molecules or ions based on experimental facts

d.      Students can distinguish the oxidation-reduction concept in terms of increasing and decreasing the oxygen number

e.       Can determine the oxidation number of elemental atoms in a compound or ion

E.     Learning Materials

1.      Material Facts Many of the events around us that involve oxidation and reduction reactions or also called redox reactions. For example, iron corrosion, chemical reactions in batteries, and combustion of hydrogen fuel in spacecraft.

2.      Concept Materials

The concept of reduction and oxidation reactions has developed along with the advancement of chemistry. Based on the facts found around us, the concept of oxidation and reduction reactions based on oxidation reactions involves combining oxygen and reduction reactions involving the release of oxygen.

3.      Principle Material

Reduction and oxidation reactions can be applied more widely and do not involve oxygen. The oxidation and reduction reactions can be observed from the chemical bonds of the electron handling. The oxidation reaction involves the transfer of electrons and the reduction reaction involves electron reception. The presence of an electron handover causes the oxidation and reduction reactions to occur together so that it is also called oxidation-reduction or redox reaction. The concept of redox reactions can also be developed based on changes in oxidation numbers. The oxidation reaction has increased the oxidation number and the reduction reaction has decreased the oxidation number

4.      Procedures

Based on the principles described above, to determine the oxidation-reduction reaction can be used with the concept or principle that exists in the material.

1) The concept of oxidation and reduction reactions based on the incorporation and release of oxygen

2) The concept of oxidation and reduction reactions based on electron discharge and reception

3) The concept of oxidation and reduction reactions based on changes in oxidation numbers

F.      Learning Method

Approach        : Scientific Approach

Model              : Problem Based Learning (problem-based learning model)

Methods          : Discussion, assignment, question and answer and presentation

G.    Learning Activities

Activities	Description	Time Allocation
Preliminary	• Greetings • Ask learners readiness and comfort to learn • Allow one of the learners to lead the prayer • Material questions about oxidation-reduction reactions • Delivering learning objectives	5 minutes
Core	• Learners are divided into 7 groups (each group consists of 4 people) • Learners discuss the concept of oxidation-reduction reactions and determine the oxidation number of atoms in a molecule or ion • Learners are assigned to practice questions related to the oxidation number of atoms in a molecule or ion • Teacher asks questions relating to the concept of oxidation-reduction reactions • Learners conclude about the concept of oxidation-reduction reactions that have been discussed • Learners do an analysis of why oxidation-reduction reactions always occur together in a redox reaction • Learners are asked to present their work in front of the class and other groups listen and respond • Provide positive feedback and reinforcement of the results of the discussion and the percentage of learners	30 minutes
Cover	• Together with learners make a summary / conclusion of the lesson • Reflecting on activities that have been implemented • Provide feedback on learning processes and outcomes (oral quiz) • Deliver a lesson plan at the next meeting on redox reactions	10 minutes

H.    Learning Resources

• Master's book

• Student's Book

• Www. Wikepidia.com

• www. Google.com

I.       Assessment

1.      Technique Forms of Assessment

No	Indicators of Competence Achievement
1	Using knowledge of the concept of oxidation-reduction reactions as well as determining the oxidation number of atoms in molecules or ions that are the product of human thought as a form of greatness God Almighty
2	Have a curiosity about the concept of oxidation-reduction reactions as well as determining the oxidation number of atoms in molecules or ions
3	Demonstrate diligence and responsibility in learning and working both individually and in groups
4	Distinguish the concept of oxidation-reduction in terms of the incorporation and release of oxygen, electron discharges and reception as well as the increase and decrease of oxidation numbers

2.      Rubric and Stage Assessment Guidelines

No	Name Learners	Aspects of Attitude Assessed			NP	NM	NA	Information
		Want to know	Cooperation	Communication
1							(NP/NM)x100
2
3

Description of attitude assessment

Want To Know (curiosity) 5   = never show attitude do not want to know 4        = never show attitude do not want to know 3        = several times show attitude do not want to know 2        = often show attitude do not want to know 1  = very often show attitude do not want to know

Cooperation (team work) 5        = always cooperate 4        = often cooperate 3         =  several times to cooperate 2      =never cooperate 1      = never cooperate

Communicating Good (communicative) 5 = never shows non-communicative attitude 4 = never show non-communicative attitude 3        = several times show non-communicative attitude 2 = often does not show a non-communicative attitude 1 = very often shows non-communicative attitude

3.      Cognitive appraisal instruments

No	Indicators of Competence Achievement	Instrument
1	Using knowledge of the concept of oxidation-reduction reactions as well as determining the oxidation number of atoms in molecules or ions that are the product of human thought as a form of greatness TYME	In the concept of oxidation and reduction reactions based on the incorporation and release of oxygen, what is meant by oxidation and reduction?
2	Have a curiosity about the concept of oxidation-reduction reactions as well as determining the oxidation number of atoms in molecules or ions	Based on removal and incorporation of oxygen, determine which are the following reactions which include oxidation-reactions? 2CuO → 2Cu + O2 2PbO + O2 → 2PbO2
3	Demonstrate diligence and responsibility in learning and working both individually and in groups	Determine the oxidation of the atoms of the elements in the following embodiments: A. AgCl B. O3 C. ClO2- D. Well
4	Distinguish the concept of oxidation-reduction in terms of the incorporation and release of oxygen, electron discharges and reception as well as the increase and decrease of oxidation numbers	Based on the data of oxidation of the atom of its elements, how can the following reactions be described as examples of oxazedoks? Mg + 2HCl → MgCl2 + H2

Assessment rubric:

No	Rated aspect	Answer	Rubric
1	In contrast, oxidation and reduction are based on the incorporation and release of oxygen, what is meant by oxidation and reduction?	The concept of oxidation and reduction is based on the incorporation and release of oxygen: • Oxidation is a reaction to the combination of substances • Reduction is a rip-off of their own triangle	1. Answering 1 2. Answering 2
2	Based on the release and incorporation of oxygen, determine which of the following reactions include the oxidation-reduction reaction? 2CuO → 2Cu + O2 2PbO + O2 → 2PbO2	Based on removal and combination of oxygen, then: Reduction: 2CuO → 2Cu + O2 Oxidation: 2PbO + O2 → 2PbO2	1. Answering one 2. Answering two.
3	Determine the oxidation number of the atoms of the elements in the following compound: A. AgCl B. O3 C. ClO2- D. Well	The oxidation of the atoms of the elements in the form follows: A) Ag = +1, Cl = -1 B) O3 = 0 C) Cl = +3, O = -2 D) Na = +1, H = -1	1. Answering One 2. Answering two 3. Answering three 4. Answering four
4	Based on the atomic oxidation number data of its elements how can the following reactions be explained as a redox reaction? Mg + 2HCl → MgCl2 + H2	Based on the data of oxidation number of atom unsure-unscracked acetate can be said to be reactediredoks. Mg + 2HCl → MgCl2 + H2 Mg → Mg2 + (Oxidation) 2H + → H2 (Reduction)	1.Configuring electron / electron valensitapi less precise 2.Proper configuration of electrons / valence electrons 3.Electronically configure electrons but the valence electrons are less precise, or vice versa 4.Perform proper valence electron and valence configuration