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KE501S: Kemi 1 – Fundamental Chemistry – Chemical Synthesis (1 ECTS)

STADS: 10005931

Level
Bachelor course

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

Teacher responsible

Email: mip@ifk.sdu.dk

Email: pon@ifk.sdu.dk

Timetable

Group	Type	Day	Time	Classroom	Weeks
S1	TL	Thursday	08-12	U10b	47
S1	TL	Thursday	08-12	Lab 5 & 6	49-50
S2	TL	Monday	08-12	U10b	47
S2	TL	Monday	08-12	Lab 5 & 6	49-50
S3	TL	Friday	14-18	U10b	47
S3	TL	Friday	14-18	Lab 5 & 6	49-50
S4	TL	Wednesday	08-12	U10b	47
S4	TL	Wednesday	08-12	Lab 5 & 6	49-50
S5	TL	Friday	08-12	U10b	47
S5	TL	Friday	08-12	Lab 5 & 6	49-50
S6	TL	Thursday	14-18	U10b	47
S6	TL	Thursday	14-18	Lab 5 & 6	49-50
S8	TL	Tuesday	08-12	U10b	48
S8	TL	Tuesday	08-12	Lab 5 & 6	51
S8	TL	Thursday	08-12	Lab 5 & 6	48
S9	TL	Tuesday	14-18	U10b	48
S9	TL	Tuesday	14-18	Lab 5 & 6	51
S9	TL	Thursday	14-18	Lab 5 & 6	48
S10	TL	Wednesday	14-18	U10b	47
S10	TL	Wednesday	14-18	Lab 5 & 6	49-50
S11	TL	Tuesday	08-12	U10b	47
S11	TL	Tuesday	08-12	Lab 5 & 6	49-50
S12	TL	Tuesday	14-18	U10b	47
S12	TL	Tuesday	14-18	Lab 5 & 6	49-50
S13	TL	Monday	14-18	U10b	47
S13	TL	Monday	14-18	Lab 5 & 6	49-50
S18	TL	Monday	13-17	U10b	48
S18	TL	Monday	13-17	Lab 5 & 6	51
S18	TL	Wednesday	08-12	Lab 5 & 6	48
T1	TL	Monday	08-12	U10b	48
T1	TL	Monday	08-12	Lab 5 & 6	51
T1	TL	Wednesday	13-17	Lab 5 & 6	48
T2	TL	Monday	13-17	U10b	48
T2	TL	Monday	13-17	Lab 5 & 6	51
T2	TL	Wednesday	08-12	Lab 5 & 6	48

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Comment:
2. kvartal

Prerequisites:
None

Academic preconditions:
None.

Course introduction
The aim of the course is to provide the students with knowledge of practical organic chemistry at such a level that the acquired knowledge can contribute to the theoretical understanding of fundamental chemistry and to a general understanding of experimental science.

Qualifications
The students will obtain a practical insight in experimental synthesis and hereby develop their ability to participate in experimental work in general and to connect observations with conclusions. Moreover, their ability to work independently and safely in an experimental laboratory will be strengthened.

Expected learning outcome
At the end of the course, the students are expected to be able to:

work independently and following the security rules in a organic chemical laboratory including safe handling of chemicals.
relate theoretical knowledge within basic organic chemistry to practical experiments and observations.
conduct analytical experiments that leads to the identification of an simple unknown organic compound, including solubility, acidic/basic properties and reactivity towards oxidation and hydrolysis, as well as the analysis of 13C NMR spectra.
relate structural formula to molecular structure by simple computer simulations.

Subject overview
Organic identification including the relation between organic molekcular structures to chemical and physical properties og the following identification of unknown compounds. Molecular computer modeling.

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:

Continuous evaluation (including both report and active participation). Participation in 8 hours laboratory exercises and 4 hours computer exercises. Approval of two written reports. Evaluated jointly. Internal evaluation by the teacher, pass/fail.

Expected working hours
The teaching method is based on three phase model.
- Laboratory exercises: 12 hours
- Other: 4 timer af laboratorieøvelserne afholdes som computerøvelser. hours
- Laboratory exercises: 12 hours
- Other: 4 timer af laboratorieøvelserne afholdes som computerøvelser. hours

Educational activities

Language
This course is taught in Danish.

Remarks
This Course is a part of KE501 and i included in the final 10 ECTS.

Course enrollment
See deadline of enrolment.

Tuition fees for single courses
See fees for single courses.