Find below the eligibility requirements. Sufficient knowledge in chemistry, mathematics and physics is a necessary condition for admission to the program.
The most suitable study programs at the Bachelor’s level are above all:
| CHEMISTRY | MATHEMATICS | PHYSICS |
|---|---|---|
| (General) Chemistry | (Applied/Discrete/Advanced/Basic) Mathematics | (General/Fundamental/Advanced/Basic) Physics |
| Analytical Chemistry | (Integral/Differential) Calculus | (Solid/Fluid/Qantum) Mechanics |
| Inorganic Chemistry | (Linear) Algebra | Dynamics |
| Organic Synthesis / Organic Chemistry | Statistics | Electricity and Magnetism/Electromagnetism |
| Physical Chemistry * | Differential Equations | Fluid Dynamics |
| Chemical Engineering | Numerical Analysis | Thermodynamics |
| Chemical Reaction Engineering | Probability | Kinetics |
| CHEMISTRY | MATHEMATICS | PHYSICS |
|---|---|---|
| (Solid/Hazardous) Waste treatment/management | (Vector/Analytical) Geometry | Kinematics |
| Air Pollution | Trigonometry | Vibration, waves and optics |
| Aquatic Chemistry/Hydrochemistry | Chemometrics | Hydraulics |
| Atmospheric Chemistry | ||
| Biochemical Engineering | ||
| Biochemistry | ||
| Biotechnology | ||
| Catalysis | ||
| Colloid Chemistry | ||
| Coordination Chemistry | ||
| Electrochemistry | ||
| Environmental Engineering | ||
| Environmental Chemistry | ||
| Green Chemistry | ||
| Chemical (Engineering) Kinetics | ||
| Chemical and Balance Calculations** | ||
| Chemical Plant Design | ||
| Chemical Process Calculations ** | ||
| Chemical Process Design | ||
| Chemical (Process) Technology | ||
| Industrial Chemical Processes | ||
| Industrial Chemistry | ||
| Instrumental Analysis | ||
| Macromolecular Chemistry | ||
| Mass Balance | ||
| Materials Science | ||
| Oil and Gas Chemistry | ||
| Petrochemistry | ||
| Petroleum Refinery Engineering | ||
| Polymer Chemistry / Polymer Science | ||
| Reactor Engineering | ||
| Separation Processes | ||
| Solid State Chemistry | ||
| Spectroscopic Methods/Spectroscopy | ||
| Stoichiometry | ||
| Structural Chemistry | ||
| Surface Chemistry | ||
| Transport phenomena * | ||
| Unit operations | ||
| Water/Wastewater Treatment |
If your Transcript of records does not indicate the ECTS credits directly, you can use the following formula to re-calculate the number of your local credits to ECTS. To do so, write down a list of all courses in mathematics, physics, and in chemistry you have taken during your Bachelor studies together with the number of credits obtained in the particular courses, and use the following formula for re-calculation:
ECTS_course = Credit_points_course * (60 * Years_of_degree)/(Total_credits_of_degree)
You have obtained a total of 160 credits in a 3-year BSc programme.
You have taken a 4-credit course in mathematics, and you want to know the number of ECTS credits for this course:
ECTS_course = 4 * (60 * 3)/160 = 4,5
1 ECTS corresponds to 25-30 hours of all the time the student spends on the course (lectures, seminars, home preparation, …).
At UCT Prague, 1 ECTS is equal to 28 hours.
For example:
You have taken a chemistry course, which is conducted by 3 lecture hours + 3 practice hours + 12 study hours per week. The semester is 15 weeks long and one course-hour corresponds to 50 minutes:
ECTS_course = ((3+3+12)*15)*0,83/28 = 9,6