Dialogue between teachers and students with a scientific approach

Dialogue Chemical

The scientific approach is a scientific approach promoted by the Curriculum 2013. Steps on a scientific approach are forms of adaptation of scientific steps to science. The learning process can be matched by a scientific process. The 2013 curriculum mandates the essence of a scientific approach in learning. The scientific approach as a golden bridge of development and development of attitudes, skills, and knowledge of learners. In processes or work processes that meet the scientific criteria, the scientists put forward inductive reasoning (inductive reasoning) with deductive deductive deductiv). Principles of learning activities with curriculum curriculum approach 2013, namely:

1.  learners are facilitated to find out;

2.  learners learn from various learning sources;

3.  learning process using scientific approach;

4.  competency-based learning;

5.  integrated learning;

6.  learning that is being verified that has multi-dimensional value;

7.  aplicative skill-based learning;

8.  improving the balance, continuity and linkage between hard skills and soft skills;

9.  learning that prioritizes learners and empowers learners as lifelong learners;

10.  learning that implements values by giving exemplary (Ing Ngarso Sung Tulodo), building the will (Ing Madyo Mangun Karso), and developing the creativity of learners in the learning process (Tut Wuri Handayani);

11.  ongoing learning at home, at school, and in the community;

12.  utilization of information and communication technology to improve efficiency and efficiency of learning;\

13.  recognition of individual differences and the cultural background of learners;

14.  fun and challenging learning atmosphere.

The following examples of learning activities and descriptions of scientific approaches to the learning curriculum of 2013 are:

1. Observe: reading, listening, listening, seeing (without or with tools) to identify things you want to know - Observe with the senses (reading, listening, listening, watching, watching, etc.) with or without tools.

 2. Asks questions about things that are not understood from what is observed or questions to get additional information about what is observed - Create and ask questions, frequently asked questions, discuss about information that has not been understood, additional information to be known, or As a clarification.

3. Trying / collecting data (information): conducting experiments, reading other sources and textbooks, observing objects / events / activities, interviews with resource persons - Exploring, trying, discussing, demonstrating, imitating forms / moves, conducting experiments, reading other sources In addition to textbooks, collect data from resource persons through questionnaires, interviews, and modify / add / develop.

4. Associate / process information: STUDENTS process information that has been collected either limited from the results of collecting activities / experiments as well as the results of observing activities and gathering information - processing information that has been collected, analyzing data in the form of making categories, associate or connect phenomena / Related information in order to find a pattern, and conclude.

5. Communicating: STUDENTS submit results of observations, conclusions based on the results of oral, written, or other media analysis - presents reports in the form of charts, diagrams, or graphs; Prepare a written report; And present the report covering the process, results, and conclusions verbally. 6. (Can proceed with) Creating: STUDENT innovates, creates, designs models, designs, products (works) based on learned knowledge.

The following is a dialogue between teachers and students based on a scientific approach

Teacher      :  Today we will learn about the specific hydrocarbon compounds the difference between alkanes, alkenes and alkalo, have you studied them at home?

Student      : (Silent)

Teacher      : Well today we will discuss it, who knows what is hydrocarbons

Student 1   : According to the book I have abaca hydrocarbon is a compound consisting of elements of carbon atoms (C) and hydrogen atoms (H). All hydrocarbons have carbon chains and hydrogen atoms binding to the chain.

Teacher      : additional?

Student 2   : In saturated and unsaturated hydrocarbon chemistry, which is saturated as an unsaturated alkane of alkenes and alkalo

Student 3   : Sorry miss i want to ask why can there be a classification between saturated and unsaturated compounds?

Teacher      : Good question, Based on the type of bond between the carbon atoms, the hydrocarbons are distinguished by saturation and unsaturation. If all carbon-carbon bonds are single bonds (-C-C-), they are classified as saturated hydrocarbons. If there is one double bond (-C = C-) or triple bond (-C C-), it is called an unsaturated bond. That is why alkanes can not be added to other substances.

Student 2   : Then what is the difference between alkanes alkene and alkalo?

Teacher     : 1. Alkanes are saturated hydrocarbons, which means having a single bond between the carbon atoms; Alkene is an unsaturated hydrocarbon which means comprising one or more double bonds between the carbon atoms; Alkalo is also unsaturated hydrocarbons with one or more triple bonds between the carbon atoms.

   2. The general formula for alkanes is CnH2n + 2, the general formula for alkene in the case of non-cyclic compounds is CnH2n whereas the general formula for the alkalo in the case of noncyclic compounds is CnH2n-2.

  3. Alkanes are the most stable hydrocarbons because carbon bonds are difficult to solve. They have remained unchanged for millions of years, alkenes are less stable than alkanes and more stable than alkalo, the alkalo is more reactive than alkanes and alkenes.

  4. Alkanes are also called paraffins, alkenes are also called olefins, alkalo is also called acetylene.

Student 1   : What reaction happens to alkene and alkalo?

Teacher      : Reaction in the alkene there is combustion, addition and polymerization whereas in    the alkalis the addition of polymerization, combustion and substitution

Student 3   : How to distinguish between adduct reactions in alkene and alkalo?

Teacher     : The addition reaction to the alkene compound is sufficient one time then the alkenes will turn into alkanes. While the alkaline requires two times pengadisian. Well that's just our meeting on this day I end the wassalamualikum wr.wb