KE528: Introductory Inorganic Chemistry

The Study Board for Science

Teaching language: Danish
EKA: N530028112, N530028122, N530028102
Assessment: Second examiner: None, Second examiner: External
Grading: Pass/Fail, 7-point grading scale
Offered in: Odense
Offered in: Spring
Level: Bachelor

STADS ID (UVA): N530028101
ECTS value: 5

Date of Approval: 11-11-2020


Duration: 1 semester

Version: Archive

Comment

10011801(former UVA) is identical with this course description. 

Entry requirements

The course can only be chosen by Chemistry students, Bachelor of Engineering in Chemical Engineering and Biotechnology and Bachelor of Science in Engineering (Chemical Engineering and Biotechnology). Students who previously passed the course KE521 Chemistry of the elements, cannot be enrolled at KE528 Introductory inorganic chemistry.

Academic preconditions

Students are expected to have knowledge of basic terminology within chemistry, quantitative chemical calculations and basic acid-base chemistry, and be able to carry out experimental work using a scientific approach. In the course tools within the SDU e-learning system will be utilized. Hence, participation in the course requires the student to be able to use these.

Course introduction

The aim of the course is to enable the student to classify the elements
and their properties, most important compounds and reactions as well as
acquire a fundamental chemical understanding and intuition, which is
important in regard to the subsequent studies and contributes to
creating an identity as chemistry student.

The course builds on
the knowledge acquired in high school chemistry, and gives an academic
basis for studying topics within inorganic, physical and to some extent
organic chemistry, that are part of the degree.

In relation to the competence profile of the degree it is the explicit focus of the course to:
  • Give the competence to utilize chemical information to explain properties of the elements and simple chemical compounds
  • Give
    skills to carry out practical laboratory work and convert experimental
    observations to chemical knowledge as well as communicate the findings
    in laboratory reports.
  • Give knowledge and understanding of the
    elements and inorganic materials in relation to their properties and
    applications in modern material chemistry.

Expected learning outcome

The learning objective of the course is that the student demonstrates the ability to:

  • Classify the chemical elements according to the periodic system.
  • Apply
    this classification to predict important properties of chemical
    compounds, including stability, solubility, redox properties and
    reactivity.
  • Utilize chemical arguments to explain the
    properties, such as reactivity, solubility, redox activity and color of
    simple chemical compounds
  • Identify a given inorganic compound based on a series of analytical reactions.

Content

The following main topics are contained in the course:
  • Periodicity, tendencies in ionization energies and electron affinities
  • Oxidation states
  • Ions in solids: lattice energies and structure types
  • Ions in solution: thermodynamics and structure
  • Thermochemical cycles
  • Free elements: structure and properties
  • Hydrogen and s-block elements
  • p-block elements
  • Selected d-block elements
  • Identification of inorganic salts

Literature

Chemistry, Blackman, Bottle, Schmid, Mocerino & Wille. 
Øvelsesvejledning, der lægges op på e-learn.
See Blackboard for syllabus lists and additional literature references.

Examination regulations

Prerequisites for participating in the exam element a)

Timing

Spring

Tests

Participation in laboratory exercises

EKA

N530028112

Assessment

Second examiner: None

Grading

Pass/Fail

Identification

Student Identification Card

Language

Normally, the same as teaching language

Examination aids

To be announced during the course

ECTS value

0

Additional information

The prerequisite examination is a prerequisite for participation in exam element a)

Exam element a)

Timing

Spring

Prerequisites

Type Prerequisite name Prerequisite course
Examination part Prerequisites for participating in the exam element a) N530028101, KE528: Introductory Inorganic Chemistry

Tests

Approval of written reports assessed overall

EKA

N530028122

Assessment

Second examiner: None

Grading

Pass/Fail

Identification

Full name and SDU username

Language

Normally, the same as teaching language

Examination aids

To be announced during the course

ECTS value

1

Additional information

The examination form for re-examination may be different from the exam form at the regular exam.

Exam element b)

Timing

June

Tests

Written examination

EKA

N530028102

Assessment

Second examiner: External

Grading

7-point grading scale

Identification

Student Identification Card

Language

Normally, the same as teaching language

Examination aids

To be announced during the course

ECTS value

4

Additional information

The examination form for re-examination may be different from the exam form at the regular exam.

Indicative number of lessons

51 hours per semester

Teaching Method

The intro phase consists of lectures, wherein dialog is created through use of an online multiple choice tool. The lectures deal all main topics of the course as well as the theory behind the laboratory experiments. Additionally an introduction to writing scientific reports and the examination is given.

The skill training phase strengthens knowledge and competences within the central parts, primarily through problem solution both individually, in groups and in plenum. During the laboratory exercises the students work individually with practical experiments aiming at identifying simple chemical compounds. Based on the laboratory exercises a series of written reports are handed in, the content of which directly strengthens the competences within the main topics of the course.

Activities during the study phase:

  • Self-study of the textbook and the laboratory manual  
  • Written laboratory reports
  • Preparation for the tutorials 
  • Independent recap of the intro- and training phase
  • Repetition prior to the exam

Teacher responsible

Name E-mail Department
Dorthe Bomholdt Ravnsbæk dbra@sdu.dk Institut for Fysik, Kemi og Farmaci

Timetable

Administrative Unit

Fysik, kemi og Farmaci

Team at Educational Law & Registration

NAT

Offered in

Odense

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