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MLJ550_1

Advanced Organic Chemistry

This is the study programme for 2019/2020. It is subject to change.


Functional group transformation, carbon-carbon bond formation,retrosynthetic analysis and planning multistep syntheses, pericyclic reactions, organic reaction mechanisms and stereochemistry.

Learning outcome

<p>This is a further elaboration based on the knowledge from an introductory organic chemistry course. The students will gain the information and conceptual skills they will need to make the transition from introductory to graduate-level organic chemistry.</p>

Contents

<p>Functional group transformation, carbon-carbon bond formation,retrosynthetic analysis and planning multistep syntheses, pericyclic reactions, organic reaction mechanisms and stereochemistry.</p>

Required prerequisite knowledge

None.

Recommended previous knowledge

KJE200 Organic Chemistry 1

The course requires previous knowledge in organic chemistry

Exam

Oral Exam
Weight Duration Marks Aid
M-DAG1
M-DAG2

Course teacher(s)

Course coordinator
Einar Bakstad
Head of Department
Gro Johnsen

Method of work

<p>4&nbsp;hours lectures with exercises 2 days per week.</p>

Overlapping courses

Course Reduction (SP)
Advanced Organic Chemistry (MET250_1) 10
Organic chemistry II (MOT180_2) 10
Organic chemistry 2 (TE6050_1) 6
Organic chemistry 2 (TE6050_A) 6
Organic chemistry II (MOT180_1) 5

Open to

Master level studies at the Faculty of Science and Technology

Course assessment

Usually by forms and/or discussion according to university regulations.

Literature

<p>L.G. Wade "Organic Chemistry" 9th Ed., Prenmtice Hall. Curriculum will be given at the first lecture.</p>


This is the study programme for 2019/2020. It is subject to change.

Sist oppdatert: 19.09.2019

History