Structure and Reactivity in Inorganic Chemistry

Code:

Q112

Acronym:

Q112

Keywords
Classification	Keyword
OFICIAL	Chemistry

Instance: 2010/2011 - 2S

Active?	Yes
Responsible unit:	Department of Chemistry and Biochemistry
Course/CS Responsible:	Bachelor in Geology

Cycles of Study/Courses

Acronym	No. of Students	Study Plan	Curricular Years	Credits UCN	Credits ECTS	Contact hours	Total Time
L:AST	4	Plano de Estudos a partir de 2008	3	-	7,5	-	202,5
L:B	2	Plano de estudos a partir de 2008	3	-	7,5	-	202,5
L:BQ	94	Plano de Estudos a partir de 2007	1	-	7,5	-	202,5
L:CC	0	Plano de estudos de 2008 até 2013/14	2	-	7,5	-	202,5
L:F	0	Plano de estudos a partir de 2008	2	-	7,5	-	202,5
L:G	0	P.E - estudantes com 1ª matricula anterior a 09/10	3	-	7,5	-	202,5
		P.E - estudantes com 1ª matricula em 09/10	3	-	7,5	-	202,5
L:M	0	Plano de estudos a partir de 2009	3	-	7,5	-	202,5

Teaching language

Portuguese

Objectives

This course is an introduction to inorganic chemistry for biochemistry students. Students should achieve a strong knowledge of basic inorganic chemistry, with most relevance to the concepts, and to the application of the concepts in other courses and multidisciplinary topics.

Program

The following topics form the core of the course
1. Atomic structure and the periodic table
2. Chemical bonding
3. Molecular structure
4. Liquids and solids
5. Acid-base of inorganic compounds
6. Redox chemistry of inorganic compounds
7 Chemistry of the representative elements
8. Introduction to coordination chemistry


Recommended bibliography
Chemical Principles, the quest for insigth
Peter Atkins, Loretta Jones
4ª edição
W. H. Freeman, Nova Iorque:2008

Inorganic Chemistry
Shriver& Atkins
4ª edição
Oxford University Press, Oxford, 2006

Mandatory literature

000086716. ISBN: 0-7167-5701-X

Complementary Bibliography

000101776. ISBN: 978-0-19-926463-6

Teaching methods and learning activities

The course has a theoretical component where presentations on the main topics of the course are shown. Since the course is mainly formative, the topics are discussed with examples in the biochemistry area that allow the knowledge to be consolidated and integrated with other topics.
In the theoretical-pratical component, the students solve some proposed problems, in groups (3-5 students).
In the laboratory component the students work in group (2-3 students) and do five laboratory projects. The laboratory projects are chosen within the topics of the course. In addition to the lab unit operations, the students practice UV/vis spectrophotometry and potentiometry.

keywords

Physical sciences > Chemistry > Inorganic chemistry

Evaluation Type

Distributed evaluation without final exam

Assessment Components

Description	Type	Time (hours)	Weight (%)	End date
Attendance (estimated)	Participação presencial	42,00
Test 1	Exame	1,00
Test 2	Exame	1,00
Test 3	Exame	1,00
	Total:	-	0,00

Amount of time allocated to each course unit

Description	Type	Time (hours)	End date
	Frequência das aulas	14
	Frequência das aulas	14
	Total:	28,00

Eligibility for exams

Admission to the final exam is only possible for those students that have not missed more than 1/4 of the number of theoretical-practical and practical classes predicted. 2/3 of the laboratory projects must have a positive classification (≥10) and the final laboratory classification must also be positive (≥10). All the students must attend the theoretical-practical classes.

Calculation formula of final grade

Students with a final classification (N) higher or equal to 9,5(20) and with a theoretical evaluation of at least 8,0 (20) will pass.

The final classification is calculated as a weighted average of the pratical evaluation (P) and theoretical evaluation (T):

N = 0,20 x P + 0,80 x T

P is calculated as the average of the classifications obtained in the laboratory classes. The laboratory projects that were not completed will have a classification equal dto zero. Students that miss lab classes may complete the work in other class, provided that the class does not have an excessive number of students. They should contact the laboratory teacher to arrange for the substitution.
T is the weighted average of the tests (T1, T2 and T3)
T= 1/3 x (T1 + T2 + T3)
T1 and T2 will be in April and May, respectively, and T3 will take place in the day of the exam (regular). In the day of the exam the students may, if they wish, retry one of T1 or T2.
In case of failure, the students may retry 2 of T1, T2 or T3 (any combination) in the retrial exam.
The final grade is always calculated with the best grades obtained in each part T1, T2 and T3, with a zero classification for students that miss any of the tests.

Special assessment (TE, DA, ...)

Working students and students that are part of the Students Association, if they wish, may do a global final exam instead of the tests. In this case, the theoretical classification is the classification obtained in the final exam. If these students cannot attend the laboratory classes, they can do a final laboratory exam.

Classification improvement

Retrial for students that were successful in the course may be done either in the same year or the next year. In the first case, retrial should be done as described in the calculation of the classification. In the latter case, the student must do a global written exam. The classification of the laboratory part cannot be changed.