Kooy368
Laatste jaar in bachelor Scheikunde aan de UvA
- 49
- 0
- 3
Community
- Followers
- Following
3 Reviews received
52 items
LCxLC 2DLC
Comprehend the scientific principles underlying key separation techniques: electrophoresis, gradient elution liquid chromatography and multidimensional chromatographic techniques. Be able to apply this knowledge to determine the key experimental parameters required to optimise the aforementioned separation techniques. Be able to describe applications suitable to each aforementioned separation technique. Contents In this course a number of separation methods will be discussed more in depth compar...
- Summary
- • 18 pages •
Comprehend the scientific principles underlying key separation techniques: electrophoresis, gradient elution liquid chromatography and multidimensional chromatographic techniques. Be able to apply this knowledge to determine the key experimental parameters required to optimise the aforementioned separation techniques. Be able to describe applications suitable to each aforementioned separation technique. Contents In this course a number of separation methods will be discussed more in depth compar...
LC-MS
Comprehend the scientific principles underlying key separation techniques: electrophoresis, gradient elution liquid chromatography and multidimensional chromatographic techniques. Be able to apply this knowledge to determine the key experimental parameters required to optimise the aforementioned separation techniques. Be able to describe applications suitable for each aforementioned separation technique. Contents In this course, a number of separation methods will be discussed more in-depth comp...
- Summary
- • 15 pages •
Comprehend the scientific principles underlying key separation techniques: electrophoresis, gradient elution liquid chromatography and multidimensional chromatographic techniques. Be able to apply this knowledge to determine the key experimental parameters required to optimise the aforementioned separation techniques. Be able to describe applications suitable for each aforementioned separation technique. Contents In this course, a number of separation methods will be discussed more in-depth comp...
FFF
Comprehend the scientific principles underlying key separation techniques: electrophoresis, gradient elution liquid chromatography and multidimensional chromatographic techniques. Be able to apply this knowledge to determine the key experimental parameters required to optimise the aforementioned separation techniques. Be able to describe applications suitable to each aforementioned separation technique. Contents In this course a number of separation methods will be discussed more in depth compar...
- Summary
- • 10 pages •
Comprehend the scientific principles underlying key separation techniques: electrophoresis, gradient elution liquid chromatography and multidimensional chromatographic techniques. Be able to apply this knowledge to determine the key experimental parameters required to optimise the aforementioned separation techniques. Be able to describe applications suitable to each aforementioned separation technique. Contents In this course a number of separation methods will be discussed more in depth compar...
Capillary Electrophoresis
Comprehend the scientific principles underlying key separation techniques: electrophoresis, gradient elution liquid chromatography and multidimensional chromatographic techniques. Be able to apply this knowledge to determine the key experimental parameters required to optimise the aforementioned separation techniques. Be able to describe applications suitable to each aforementioned separation technique. Contents In this course a number of separation methods will be discussed more in depth compar...
- Summary
- • 20 pages •
Comprehend the scientific principles underlying key separation techniques: electrophoresis, gradient elution liquid chromatography and multidimensional chromatographic techniques. Be able to apply this knowledge to determine the key experimental parameters required to optimise the aforementioned separation techniques. Be able to describe applications suitable to each aforementioned separation technique. Contents In this course a number of separation methods will be discussed more in depth compar...
answers to exercises 5 thermodynamica
second year course thermodynamics or premaster UvA 2e jaars vak thermodynamica
- Answers
- • 3 pages •
second year course thermodynamics or premaster UvA 2e jaars vak thermodynamica
answers to exercises 4 thermodynamica
second year course or premaster thermodynamics for chemistry students 2e jaars vak sheikunde thermodynamica UvA
- Answers
- • 4 pages •
second year course or premaster thermodynamics for chemistry students 2e jaars vak sheikunde thermodynamica UvA
answers to exercises 9 thermodynamica
2nd year course thermodynamics or premaster UvA for chemistry students
- Answers
- • 4 pages •
2nd year course thermodynamics or premaster UvA for chemistry students
answers to exercises 8 thermodynamica
2nd year course thermodynamics UvA or premaster
- Answers
- • 3 pages •
2nd year course thermodynamics UvA or premaster
answers to exercises 3 thermodynamica
Second year course Thermoynamics or premaster at UvA Chemistry tweedejaarsvak Scheikunde Thermodynamica voor Chemici
- Answers
- • 4 pages •
Second year course Thermoynamics or premaster at UvA Chemistry tweedejaarsvak Scheikunde Thermodynamica voor Chemici
answers to exercises 7 thermodynamica
second year course thermodynamics UvA or premaster 2e jaars vak thermodynamica
- Answers
- • 2 pages •
second year course thermodynamics UvA or premaster 2e jaars vak thermodynamica
Hoofdstuk 25 Organische Chemie Clayden
Hoofdstuk 23 Organische Chemie Clayden
DNA-technieken, het lezen van een DNA-profiel; SGM-Plus, Allel drop in-out, LCN