IMPLEMENTATION OF STUDENT WORKSHEET BASED ON GUIDED INQUIRY ON THE TOPIC OF MOLECULAR GEOMETRY IN GRADE X

Authors

  • Melinda Nugraha Chemistry Education, Universitas Pendidikan Indonesia, Bandung, Indonesia - 40154

Keywords:

Guided Inquiry, Learning Outcomes, Student Worksheet

Abstract

This study aimed to reveal the differences in student learning outcomes by  using two worksheets, among student learning outcomes by using guided inquiry-based worksheets with MGMP worksheets that usually use at that school . In the learning process by using guided inquiry learning model, students were guided to find the concept itself in small groups. The learning model matched with the demand of Curriculum 2013 which requires an active participation from the students through 5M activities (observing, asking, collecting data, associating and communicating). This research was a Quasi Experimental Research by using an expanded Randomized Control Group Posttest Only Design. The samples of this research consisted of two classes; 1st experimental class and 2nd experimental class which were formed through cluster sampling. Based on the test results obtained by the average value in the knowledge competence, the 1st experimental class’ result (65.34) was higher than the 2nd experimental class’ (45.16).  Both of Normality and Homogenous’s results showed that the distribution of the two experimental classes were normal and homogeneous, the data analysis which was performed by using t-test. Based on the analysis, it showed that there were significant differences in learning outcomes among the students who used guided inquiry-based worksheets and MGMP worksheets on molecular geometry material.

References

I. Direktorat Pembinaan SMA.2014 .Pembelajaran Kimia Melalui Pendekatan Saintifik. Jakarta: Direktorat Pembinaan SMA-Ditjen Pendidikan Menengah

II. Kementerian pendidikan dan kebudayaan.2014. Modul Pendamping Implementasi kurikulum 2013 di SMA. Jakarta :Direktorat Pembinaan SMA-Ditjen Pendidikan Menengah

III. Hanson, D.2005. Designing Process-Oriented Guided-Inquiry Activities. New York: Pasific Crest.

IV. Depdiknas Dirjen Dikdasmen Dir Dikmenum. 2002. Konsepsi Revitalisasi Musyawarah Guru MataPelajaran (MGMP) dalam Konteks School Reform dengan Pendekatan BBS/MPMBS. Bahan workshopdan TOT MKKS dalam MGMP Program Pendidikan Menengah Umum

V. Suryabrata, Sumadi. (2010). Metodologi Penelitian. Jakarta: PT. Raja Grafindo Persada

VI. Sudjana. 2002. Metode Statistik. Bandung: Tarsito.

VII. Hanson, D.2006. Instructor’s Guide to Process-Oriented Guided-Inquiry Learning. New York: Pasific Crest.

VIII. Straumanis, Andrei. 2010. Process Oriented Guided Inquiry Learning: 1

IX. Bilgin, Ibrahim. 2009. The Effects of Guided Inqury Instruction Incorporating, a Cooperative Learning Approach on University Students’Achievement of Acid and Bases Concepts and Attitude Toward Guided Inqury Instruction. Scientific Research and Essay. Vol.4 (10): 1038-1046.

X. Myers, Trina & Richard, Monypenny. 2012. Overcoming The Glassy-Eyed Nod: An Application of Process-Oriented Guided Inquiry Learning Techniques In Information Technology. Journal of Learning Design. Vol. 5 No. 1

Additional Files

Published

15-04-2018

How to Cite

Melinda Nugraha. (2018). IMPLEMENTATION OF STUDENT WORKSHEET BASED ON GUIDED INQUIRY ON THE TOPIC OF MOLECULAR GEOMETRY IN GRADE X. International Education and Research Journal (IERJ), 4(4). Retrieved from http://ierj.in/journal/index.php/ierj/article/view/1555