Green chemistry WM-CH-ZCH
This course has not yet been described...
(in Polish) Grupa przedmiotów ogólnouczenianych
Subject level
Learning outcome code/codes
Type of subject
Course coordinators
Learning outcomes
Learning outcomes and ECTS description - the aim of education is to achieve the following effects:
Specific learning outcomes:
Describes methods based on the principles of "Green Chemistry"
Calculate the indexes used in "Green Chemistry"
Solves problematic tasks related to the application of the "Green Chemistry" principles
Learning outcomes - Knowledge:
Indicates the methods based on "Green Chemistry" principles used in chemistry
Describes methods based on "Green Chemistry" principles
Specifies indexes applied in "Green Chemistry"
Recognises catalytic methods for a target process
Learning outcomes - Skills:
Chooses the proper method based on "Green Chemistry" principles used in chemistry.
Solves tasks/problems connected to the application of "Green Chemistry" principles
Solves tasks/problems connected to the application of catalysis
Develops methods based on the principles of "Green Chemistry"
Learning outcomes - Competences:
It is open to cooperation.
It is focused on achieving the goal
Assessment criteria
Assessment of the lecture: attendance, oral tests and final exam.
Assessment of the exercises: attendance, problem tasks to be solved (each task consists of a report, oral presentation and discussions).
Lecture - student's estimated workload:
participation in classes (30 hours)
preparation for classes (10 h)
preparation for verification (14 h)
consultation with the teacher (1 h)
ECTS points: 2
Auditorium exercises - student's estimated workload:
participation in classes (30 hours)
preparation for classes (18 hours)
preparation for verification (6 hours)
consultation with the lecturer (1 hour)
ECTS points: 2
verification shows that without any visible deficiencies. Describes methods based on the principles of "Green Chemistry" (5)
the verification shows that it is almost completely correct. Describes methods based on the principles of "Green Chemistry", but does not meet the criteria for a higher grade(4,5)
the verification shows that it describes correctly the methods based on the principles of "Green Chemistry" but does not meet the criteria for a higher grade (4)
verification shows that it is correctly but inconsistently described. It describes methods based on the principles of "Green Chemistry", but does not meet the criteria for a higher grade (3,5)
verification shows that in most test cases describes methods based on the principles of "Green Chemistry", but does not meet the criteria for a higher grade (3)
verification does not show that it describes methods based on the principles of "Green Chemistry", or that it meets the criteria for a higher grade (2)
verification shows that without any visible deficiencies Calculates indices used in "Green Chemistry" (5)
the verification shows that it is almost completely correct. It calculates the indexes used in "Green Chemistry", but does not meet the criteria for a higher grade (4,5)
the verification shows that it compares the indexes used in "Green Chemistry" to a significant degree, but does not meet the criteria for a higher grade (4)
verification shows that it is correctly but inconsistently calculated indexes used in "Green Chemistry", but does not meet the criteria for a higher grade (3.5)
verification shows that in most test cases Calculates the indexes used in "Green Chemistry" but does not meet the criteria for a higher grade (3)
verification does not show that it calculates indices used in "Green Chemistry", or that it meets the criteria for a higher grade (2)
verification shows that without any deficiencies it solves problems related to the application of the "Green Chemistry" principles (5)
verification shows that it almost completely correctly solves problematic tasks related to the application of the "Green Chemistry" principles, but does not meet the criteria for a higher grade (4,5)
verification shows that it correctly solves problematic tasks related to the application of the "Green Chemistry" principles, but does not meet the criteria for a higher grade (4)
the verification shows that it is correct but not quite consistent. It solves problematic tasks related to the application of the "Green Chemistry" principles, but does not meet the criteria for a higher grade (3.5)
verification shows that in most test cases, it solves problematic tasks related to the application of the "Green Chemistry" principles, but does not meet the criteria for a higher grade (3)
verification does not show that it solves problematic tasks related to the application of the "Green Chemistry" principles or that it meets the criteria for a higher grade (2)
Bibliography
R.A. Sheldon, I. Arends, and U. Hanefeld in „Green Chemistry and Catalysis” 2007 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim, Germany
Jens Hagen. Industrial Catalysis: A Practical Approach. 2006 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim, Germany
Sumit Bhaduri, Doble Mukesh. Homogeneous Catalysis: Mechanisms and Industrial Applications. Copyright 2000 John Wiley & Sons, Inc.
Additional information
Additional information (registration calendar, class conductors, localization and schedules of classes), might be available in the USOSweb system: