NWNR100002 Introduction to general chemistry, practical course
- Type
- course with continuous assessment
- Semester hours
- 3
- Lecturer (assistant)
- Viehauser, Petra , Luef, Christoph , Steiner-Friedmann, Christina , Schuhmacher, Rainer , Troyer, Christina , Vasilieva, Viktoriya , Kastner, Bruna , Hann, Stephan
- Organisation
- Analytical Chemistry
- Offered in
- Sommersemester 2026
- Languages of instruction
- Deutsch
- Content
-
Safety measures and rules in the laboratory
Classification of bond types based on conductivity, solubility, melting point; categorisation of selected substances
Attribution of periodic properties of elements based on the behaviour of element groups (oxidising effect, solubility)
Reaction equations for acid/base, buffer, precipitation, complexation, and redox equilibria, including equilibrium constants
Calculations related to these equilibria
Le Chatelier’s principle and coupled equilibria
Nomenclature of acids, bases, salts, and complexes
pH calculations for acids, bases, buffers, and salt solutions
Structure, formation, dissociation, and stability of complexes
Amphoterism
Application and interpretation of the electrochemical series using reactions of metals and metal salts
Coupled equilibria demonstrated via analytical detection reactions; flame tests
CONTENT of the Chemical Calculations Part:
Writing chemical reaction equations
Calculation of amount of substance; calculations of content (proportion, concentration, ratio)
Conversion of concentration units
Mixture calculations
Chemical equilibrium
pH calculations for acids/bases/buffers/salts
Calculations involving solubility product and complex formation
Calculations involving coupled equilibria
Redox reaction calculations
- Previous knowledge expected
-
Basics in mathematics and chemistry: general arithmetic operations, exponents and logarithms, unit conversions, rounding, basic chemical knowledge
School-level knowledge in chemistry and basic arithmetic should be reviewed using the BOKUlearn course "Eine Frage der Chemie" (Moodle-based), password: "chemistryisawesome"
Attendance of the lecture "Introduction to Chemistry" (NRNW100001) is strongly recommended; exercises are scheduled in parallel with the lecture
Knowledge of the lecture and script contents for each exercise day is required (see self-assessments in BOKUlearn); expect related questions in the introductory session
The better you prepare, the more you will benefit from the exercises
- Objective (expected results of study and acquired competences)
-
After completing the course, students can:
Apply safety rules, properly use safety equipment, chemicals, and devices
Identify hazards using hazard symbols and reduce risks through appropriate behaviour
Organise and maintain a clean workspace
Estimate solubility in various solvents, determine approximate melting point, and assign substances to bond types based on these properties and conductivity; document results appropriately
Formulate reaction equations for chemical reactions (including acid/base, complexation, and redox reactions) performed in the lab, derive corresponding equilibrium constants/solubility products, and carry out related calculations
Assess reaction progress and equilibrium position through experiments (e.g. colour change, gas evolution); apply Le Chatelier’s principle to purposely shift equilibria
Prepare and dilute solutions, calculate pH, prepare buffers and observe buffer capacity, determine buffer range, calculate solubility product based on the pH of saturated hydroxide solution
Predict and experimentally verify pH (neutral, acidic, basic) of salt solutions based on their formulas; justify using reaction equations
Identify amphoterism using metal hydroxides and redox-amphoteric substances; assess relative stability of complexes based on observations; apply nomenclature rules to complexes
Perform simple ion detection tests, discuss potential errors, write reaction equations, and assess their dependence; apply flame test as basis for spectroscopy
Use the electrochemical series to classify and predict reactions of metals and metal ions; assign oxidation states, distinguish oxidation and reduction, and formulate redox equations
Translate written chemical descriptions into reaction equations
Convert between concentration units, define and calculate amount of substance, proportion, concentration, and ratio
Calculate yields in chemical reactions
Perform pH and equilibrium constant calculations for weak acids/bases, determine dissociation degrees and vice versa
Set up solubility products and complex equilibria; identify and calculate coupled equilibria
Set up redox reactions and carry out related calculations
Independently acquire content via an online course, organise group work, and use BOKUlearn functions
You can find more details like the schedule or information about exams on the course-page in BOKUonline.