English

KE501: Kemi 1 – Fundamental Chemistry (10 ECTS)

STADS: 10005941

Level
Bachelor course

Teaching period
The course is offered in the autumn semester.
1st and 2nd quarter.

Teacher responsible
No responsible teachers found, contact the department if necessary

Timetable

Group	Type	Day	Time	Classroom	Weeks	Comment
Common	I	Monday	16-17	U110	47-48
Common	I	Tuesday	10-12	U110	48
Common	I	Wednesday	12-14	U55	36-41,44-46,49-50
Common	I	Wednesday	16-17	U110	43
Common	I	Wednesday	10-12	U55	47
Common	I	Thursday	16-18	U55	43
Common	I	Friday	12-14	U55	36,39
Common	I	Friday	12-13	U55	44-46,49
H2	TE	Monday	10-12	*Odense Lokalitet aftales 14	37,44,50	SF
H2	TE	Monday	10-12	U155	46-47
H2	TE	Monday	09-11	U155	48
H2	TE	Tuesday	12-14	U154	38
H2	TE	Tuesday	08-10	U155	41
H2	TE	Tuesday	10-12	U146	50
H2	TE	Wednesday	12-14	U60	43
H2	TE	Wednesday	08-10	*Odense Lokalitet aftales 14	48	SF
H2	TL	Wednesday	14-18	Lab 5 og 6	50
H2	TE	Thursday	10-12	U146	36
H2	TL	Thursday	14-18	Lab 3 og 4	40-41
H2	TE	Thursday	08-10	U155	46
H2	TE	Thursday	12-14	U155	47
H2	TE	Thursday	14-16	U155	50
H2	TL	Thursday	08-12	Lab 5 og 6	50
H2	TE	Friday	12-14	U24A	37
H2	TE	Friday	10-12	U154	38
H2	TE	Friday	14-16	U154	39
H2	TE	Friday	12-14	*Odense Lokalitet aftales 14	40	SF
H2	TE	Friday	14-16	U155	40
H2	TE	Friday	10-12	U28A	41
H2	TE	Friday	08-10	U157	44
H2	TE	Friday	08-10	U154	45,48
H2	TE	Friday	08-10	*Odense Lokalitet aftales 14	46	SF
H2	TE	Friday	13-15	U146	49
H3	TE	Monday	14-16	U155	46-47
H3	TE	Monday	10-12	U31A	47
H3	TE	Monday	14-16	U154	48
H3	TE	Tuesday	10-12	*Odense Lokalitet aftales 14	37	SF
H3	TE	Tuesday	12-14	*Odense Lokalitet aftales 14	40,44	SF
H3	TE	Tuesday	14-16	U155	41
H3	TL	Tuesday	14-18	Lab 5 og 6	50
H3	TE	Tuesday	08-10	U153	50
H3	TE	Tuesday	10-12	*Odense Lokalitet aftales 12	50	SF
H3	TL	Wednesday	08-12	Lab 5 og 6	50
H3	TE	Thursday	14-16	U146	36
H3	TE	Thursday	10-12	U156	38
H3	TE	Thursday	08-10	U155	40
H3	TE	Thursday	10-12	U155	41,47-48,50
H3	TE	Thursday	14-16	U154	43
H3	TE	Thursday	12-14	U155	46
H3	TE	Friday	10-12	U24A	37
H3	TE	Friday	08-10	U146	38
H3	TE	Friday	10-12	U154	39,45
H3	TL	Friday	08-12	Lab 3 og 4	40-41
H3	TE	Friday	10-12	U146	44
H3	TE	Friday	10-12	*Odense Lokalitet aftales 14	46	SF
H3	TE	Friday	12-14	*Odense Lokalitet aftales 11	48	SF
H3	TE	Friday	10-12	U25A	49
H10	TL	Monday	14-18	Lab 3 og 4	40-41
H10	TE	Monday	08-10	U152	46
H10	TE	Monday	12-14	U152	47
H10	TE	Monday	12-14	U154	48
H10	TE	Tuesday	08-10	U154	37
H10	TE	Tuesday	10-12	U160	41
H10	TE	Tuesday	16-18	U145	44
H10	TE	Tuesday	14-16	U168	48
H10	TE	Tuesday	10-12	U24A	50
H10	TE	Wednesday	14-16	*Odense Lokalitet aftales 12	37	SF
H10	TE	Wednesday	10-12	U155	38
H10	TE	Wednesday	10-12	*Odense Lokalitet aftales 12	50	SF
H10	TE	Thursday	12-14	U24A	36
H10	TE	Thursday	12-14	U155	38
H10	TE	Thursday	10-12	U155	39
H10	TE	Thursday	10-12	*Odense Lokalitet aftales 12	40,46,48	SF
H10	TE	Thursday	10-12	U21	41,43
H10	TE	Thursday	14-16	U152	45
H10	TE	Thursday	16-18	U152	46
H10	TE	Thursday	10-12	U24A	49
H10	TL	Thursday	14-18	Lab 5 og 6	49
H10	TE	Thursday	08-10	U24A	50
H10	TE	Friday	12-14	U32	40
H10	TE	Friday	10-12	*Odense Lokalitet aftales 12	44	SF
H10	TE	Friday	13-15	U152	47
H10	TL	Friday	08-12	Lab 5 og 6	49
H11	TE	Monday	14-16	U155	38
H11	TE	Monday	14-16	U154	41
H11	TE	Monday	12-14	U152	46
H11	TE	Monday	10-12	U152	47
H11	TE	Monday	10-12	U154	48
H11	TL	Monday	08-12	Lab 5 og 6	49-50
H11	TL	Tuesday	08-12	Lab 3 og 4	40-41
H11	TE	Tuesday	08-10	U21	50
H11	TE	Wednesday	14-16	U155	43
H11	TE	Wednesday	14-16	U24	48
H11	TE	Wednesday	12-14	*Odense Lokalitet aftales 10	48	SF
H11	TE	Wednesday	10-12	*Odense Lokalitet aftales 10	50	SF
H11	TE	Thursday	08-10	U27	36,44
H11	TE	Thursday	08-10	U155	37-39,45
H11	TE	Thursday	10-12	*Odense Lokalitet aftales 12	37	SF
H11	TE	Thursday	08-10	U21	40-41
H11	TE	Thursday	08-10	U152	46
H11	TE	Thursday	12-14	*Odense Lokalitet aftales 12	46	SF
H11	TE	Thursday	14-16	U24	49
H11	TE	Thursday	10-12	U27	50
H11	TE	Friday	12-14	*Odense Lokalitet aftales 12	40	SF
H11	TE	Friday	13-15	*Odense Lokalitet aftales 12	44	SF
H11	TE	Friday	08-10	U152	47
H12	TE	Monday	12-14	*Odense Lokalitet aftales 10	40	SF
H12	TE	Monday	08-10	U151	41
H12	TE	Monday	14-16	*Odense Lokalitet aftales 13	48	SF
H12	TL	Monday	14-18	Lab 5 og 6	50
H12	TE	Tuesday	12-14	U155	38
H12	TL	Tuesday	14-18	Lab 3 og 4	40-41
H12	TE	Tuesday	10-12	U152	46-47
H12	TE	Tuesday	08-10	U164	48
H12	TE	Tuesday	12-14	U27	50
H12	TL	Tuesday	08-12	Lab 5 og 6	50
H12	TE	Wednesday	12-14	U143	43
H12	TE	Wednesday	14-16	*Odense Lokalitet aftales 10	44	SF
H12	TE	Wednesday	09-11	*Odense Lokalitet aftales 10	46	SF
H12	TE	Thursday	10-12	U27	36
H12	TE	Thursday	12-14	*Odense Lokalitet aftales 10	37,50	SF
H12	TE	Thursday	10-12	U155	37-38,40
H12	TE	Thursday	12-14	U155	39
H12	TE	Thursday	10-12	U154	41
H12	TE	Thursday	10-12	U67	44
H12	TE	Thursday	10-12	U152	45
H12	TE	Thursday	10-12	U52	46
H12	TE	Thursday	16-18	U24	49
H12	TE	Thursday	08-10	U27	50
H12	TE	Friday	10-12	U152	47
H12	TE	Friday	08-10	U153	48
H14	TE	Monday	08-10	U146	41
H14	TE	Monday	10-12	U146	50
H14	TE	Tuesday	14-16	*Odense Lokalitet aftales 10	40	SF
H14	TE	Tuesday	16-18	U146	43
H14	TE	Tuesday	12-14	*Odense Lokalitet aftales 10	44	SF
H14	TE	Tuesday	12-14	U154	46-47
H14	TE	Tuesday	14-16	*Odense Lokalitet aftales 12	46,48	SF
H14	TE	Tuesday	12-14	U155	48
H14	TL	Tuesday	14-18	Lab 5 og 6	49
H14	TE	Tuesday	12-14	*Odense Lokalitet aftales 12	50	SF
H14	TE	Wednesday	10-12	*Odense Lokalitet aftales 10	37	SF
H14	TL	Wednesday	08-12	Lab 3 og 4	40-41
H14	TL	Wednesday	08-12	Lab 5 og 6	49
H14	TE	Thursday	12-14	U146	36-37
H14	TE	Thursday	12-14	U32	38-39
H14	TE	Thursday	14-16	U154	44-45
H14	TE	Thursday	12-14	U154	46
H14	TE	Thursday	08-10	U154	47-48
H14	TE	Thursday	10-12	U151	49
H14	TE	Thursday	08-10	U151	50
H14	TE	Friday	10-12	U32	38,40
H14	TE	Friday	10-12	U152	41
H15	TE	Monday	12-14	U154	38,41,46
H15	TE	Monday	12-14	U146	47
H15	TE	Monday	12-14	U152	48
H15	TE	Monday	08-10	U151	50
H15	TE	Tuesday	10-12	*Odense Lokalitet aftales 11	40,44	SF
H15	TE	Tuesday	10-12	*Odense Lokalitet aftales 14	50	SF
H15	TL	Wednesday	14-18	Lab 3 og 4	40-41
H15	TE	Wednesday	14-16	U24A	43
H15	TE	Wednesday	14-16	*Odense Lokalitet aftales 11	46	SF
H15	TE	Wednesday	10-12	*Odense Lokalitet aftales 14	48	SF
H15	TL	Wednesday	14-18	Lab 5 og 6	49
H15	TE	Thursday	12-14	*Odense Lokalitet aftales 11	37	SF
H15	TE	Thursday	10-12	U154	38
H15	TE	Thursday	12-14	U154	39
H15	TE	Thursday	08-10	U154	40,45
H15	TE	Thursday	10-12	U21	47
H15	TE	Thursday	10-12	U151	48,50
H15	TL	Thursday	08-12	Lab 5 og 6	49
H15	TE	Thursday	14-16	U151	49
H15	TE	Friday	08-10	U154	36
H15	TE	Friday	12-14	U154	37
H15	TE	Friday	14-16	U154	41
H15	TE	Friday	08-10	U146	44
H15	TE	Friday	08-10	U21	46
H20	TE	Monday	12-14	*Odense Lokalitet aftales 12	37,46	SF
H20	TE	Monday	14-16	*Odense Lokalitet aftales 14	48	SF
H20	TL	Monday	14-18	Lab 5 og 6	49
H20	TE	Tuesday	14-16	*Odense Lokalitet aftales 12	44	SF
H20	TE	Tuesday	12-14	U32	46-48
H20	TL	Tuesday	08-12	Lab 5 og 6	49
H20	TE	Wednesday	08-10	*Odense Lokalitet aftales 12	40	SF
H20	TE	Thursday	08-10	U32	38,45,48
H20	TE	Thursday	14-16	U32	40
H20	TE	Thursday	10-12	U32	41,43-44,47,49
H20	TE	Thursday	12-14	U32	46,50
H20	TE	Friday	14-16	U154	36
H20	TE	Friday	12-14	U32	37-38,41
H20	TE	Friday	10-12	U32	39
H20	TL	Friday	14-18	Lab 3 og 4	40-41
H20	TE	Friday	08-10	U32	50
H20	TE	Friday	10-12	*Odense Lokalitet aftales 14	50	SF

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Prerequisites:
None

Academic preconditions:
None.

Course introduction
The aim of the course is to provide the students with knowledge of chemistry at such a level that the acquired knowledge can form the background of advanced studies within chemistry and support related disciplines, e.g. biology, biochemistry, biotechnology, bioinformatics, biomedicine, pharmaceutical sciences, physics and chemical engineering.

Expected learning outcome
For the examination, the students are expected to be able to:

describe the connection between quantum numbers and orbitals
explain the significance of different types of chemical bonding and recognize the concept of hybridisation
relate knowledge on chemical bonding, orbitals and hybridization to problems in general chemistry
draw Lewis-structures for simple molecules and ions and argue for their geometry using the VSEPR-model
recognize the concept of resonance in the context of simple inorganic molecules and ions
employ Le Chatelier’s principle on chemical equilibria and perform calculations on equilibrium mixtures from equilibrium constants
explain the concept of intermolecular interactions
determine concentrations from titrations and equilibrium constants and relate pH-calculations to the titration curves for acid/base titrations
recognize reaction types of zero, first and second order, employ integrated reaction rate equations, Arrhenius' equation and recognize catalysis and molecularity
determine reaction order, half lives and activation energies from experimental data
recognize and employ the concepts of enthalpy, entropy, heat capacity, free energy and solubility constant in simple calculations
recognize and employ the fundamental concepts of Galvanic and electrolytic cells, Faraday’s law and Nernst’s equation
perform calculations of concentrations, potentials and equilibrium constants
read and draw organic chemical structures and formula
recognize the basic structures and the functional groups and to assess the relevance of these for the properties of concrete compounds including polarity, reactivity in aqueous solutions and the possibility for intermolecular bonds.
explain the most common reactions for different organic classes of compounds based on basic structures and functional groups including saturated and unsaturated carbon hydrides, aromatic compounds, halogen compounds, alcohols, ethers, amines and carbonyl compounds.
employ the nomenclature for simple organic molecules and recognize the most common trivial names
employ the basic concepts for stereochemistry and isomerism as well as the concepts configuration and conformation
employ simple mechanisms in the explanation of the most common reactions
explain the most important aspects of nucleophilic substitution, electrophilic addition and elimination.
explain the most important aspects of electrophilic aromatic substitution and employ the concept of resonance in accordance to organic molecules.
explain the use of condensation, hydrolysis, oxidation and reduction.
describe and suggest simple organic syntheses from a judgment of basic structures and functional groups as well as the reactivity of these
interpret simple 13C NMR-spectra
relate chemical reactivity to practical experiment

Subject overview

Atomic structure related to the construction of the periodic table
Concepts concerning the chemical bonding, includingCovalent and non-covalent bonding
Molecular structure, including Aliphatic and aromatic hydrocarbons and alkyl halides, Functional groups, stereochemistry and nomenclature
Chemical equilibrium, including Acids and bases, buffers and ampholytes Solubility product and heterogeneous equilibria
Thermodynamics, including The first law of thermodynamics, energy and enthalpy, The second law of thermodynamics, entropy and free energy, Electrochemistry
Reaction kinetics
Organic chemical reactions, including The concept of resonance and reaction mechanisms, Alcohols, phenols and ethers, aldehydes and ketones, Carboxylic acids, carboxylic acid derivatives and amines, Keto-enol tautomerism, Elimination, Nucleophilic substitution, Electrophilic aromatic substitution

Literature
There isn't any litterature for the course at the moment.

Website
This course uses e-learn (blackboard).

Prerequisites for participating in the exam
None

Assessment and marking:

Project assignment which goes across the three courses held in 1st quarter. Pass/fail, internal evaluation (Weight 1 ECTS). The deadline for handing in the assignment will be announced in the beginning of the course.
Delivery of acceptable answers to at least 10 out of 12 exercises. Pass/fail, internal examination by the teacher (weight 1 ECTS).
A 4 hour written exam after the 2nd quarter with all aids allowed. The exam incorporates elements from KE501A and KE501S. External marking and grade according to the 7-points scale (weight 6 ECTS).

A closer description of the exam rules will be posted under 'Course Information' on Blackboard.

Note: You do not have to hand in the first assignment (a) if you attend this class for the second time or if it is part of your programme's second or third year. You still will be attributed 10 ECTS for the whole course.

Re-examination after 4th quarter.

Expected working hours
The teaching method is based on three phase model.

Forelæsninger (36 t), eksaminatorier og opgaveregning (40 t).
Educational activities

Language
This course is taught in Danish.

Remarks
The 10 ECTS includes following two 1 ECTS elements: KE501A and KE501S

Course enrollment
See deadline of enrolment.

Tuition fees for single courses
See fees for single courses.

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KE501: Kemi 1 – Fundamental Chemistry (10 ECTS)