Sunday , 24 September 2017

S1 Pendidikan Kimia-Matakuliah Ikatan Kimia

Kompetensi/Competencies

1) Memahami teori, prinsip dan konsep dasar tentang: simetri molekul, mekanika kuantum, struktur atom, ikatan kovalen, bentuk dan kepolaran molekul, gaya-gaya antar molekul, ikatan ionik, dan ikatan logam. 2) Meramalkan sifat-sifat molekul dan senyawa seperti: kekuatan ikatan, bentuk dan kepolaran molekul, titik didih, titik lebur, kelarutan, dan tekanan uap suatu senyawa. 3) Menentukan unsur-unsur simetri suatu molekul, panjang gelombang pada spektrum atom, term simbul atom, konfigurasi elektron dan diagram tingkat energi orbital suatu molekul diatomik, pola susunan atom pada kristal, dan tipe-tipe penghantar logam./(1) Understanding the theories, principles, and basic concepts about: the molecular symmetry, quantum mechanics, atomic structure, covalent bond, shape and molecular polarity, the forces between molecules, ionic and metallic bonding. 2) Predicting the properties of molecules and compounds such as bond strength, shape and molecular polarity, boiling point, melting point, solubility, and vapor pressure of a compound. 3) Determine the symmetry elements of a molecule, the wavelength in the atomic spectra, atomic term symbol, electronic configuration and energy level diagram of orbital of a diatomic molecule, the arrangement of atoms in the crystal pattern, and types of metal conductive.

Bahan Kajian/Subject Matters

Simetri Molekul, Dasar-dasar mekanika Kuantum, Struktur Atom, Ikatan Kovalen, Bentuk dan Kepolaran Molekul, Gaya Antarmolekul, Ikatan Ion, dan Ikatan Logam./The molecular symmetry, quantum mechanics, atomic structure, covalent bond, shape and molecular polarity, the forces between molecules, ionic and metallic bonding.

Tujuan/Objectives

Setelah mempelajari bahan kajian dalam matakuliah ini melalui kuliah/ceramah, diskusi dan tanya jawab, dan studi literatur secara komprehensif, mahasiswa diharapkan.1) Memahami teori, prinsip dan konsep dasar tentang:  simetri molekul, mekanika kuantum, struktur atom, ikatan kovalen, bentuk dan kepolaran molekul, gaya-gaya antar molekul, ikatan ionik, dan ikatan logam. 2) Meramalkan sifat-sifat molekul dan senyawa seperti: kekuatan ikatan, bentuk dan kepolaran molekul, titik didih, titik lebur, kelarutan, dan tekanan uap suatu senyawa. 3) Menentukan unsur-unsur simetri suatu molekul, panjang gelombang pada spektrum atom, term simbul atom, konfigurasi elektron dan diagram tingkat energi orbital suatu molekul diatomik, pola susunan atom pada kristal, dan tipe-tipe penghantar logam./After learning The Subject Matters through lectures, discussion and questions-answers, literature study comprehensively, students are expected.1) Understanding the theories, principles, and basic concepts about: the molecular symmetry, quantum mechanics, atomic structure, covalent bond, shape and molecular polarity, the forces between molecules, ionic and metallic bonding. 2) Predicting the properties of molecules and compounds such as bond strength, shape and molecular polarity, boiling point, melting point, solubility, and vapor pressure of a compound. 3) Determine the symmetry elements of a molecule, the wavelength in the atomic spectra, atomic term symbol, electronic configuration and energy level diagram of orbital of a diatomic molecule, the arrangement of atoms in the crystal pattern, and types of metal conductive.

Daftar Pustaka/References

  1. Surdia, N.M. 1993. Ikatan dan Struktur Molekul. Bandung: ITB.
  2. Effendy. 2003. Teori VSEPR dan Kepolaran Molekul. Malang: Bayu Media.
  3. Effendy. 2004. Ikatan Ionik dan Cacat-cacat pada Kristal Ionik. Malang: Bayu Media.
  4. Effendy. 2002. Logam, Semikonduktor dan Isolator. Malang: Jurusan Kimia, FMIPA Universitas Negeri Malang.
  5. Dekock, R.L., dan Gray, H.B. 1980. Chemical Structure and Bonding. Menlo Park: The Benjamin/Cummings Publishing Company, Inc.
  6. Coulson, C.A. 1965. Valence. Glasgow: Oxford University Press.