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Check the detailed rules for converting recruitment points:

Candidates will be admitted according to the ranking list based on the results of the matriculation examination.

Number of points for the ranking is determined as the weighted average number of points corresponding to the matriculation examination in subjects specific to the field of study.

Points for the ranking (R) are calculated using the formula:

R = 0,15 m1 + 0,25 m2 + 0,1 o1 + 0,2 o2 + 0,3 x2

where:

m1, m2 – points for Mathematics
o1, o2 – points for Modern foreign language
x2 – points for Chemistry or Physics or Computer Science

1 – elementary level or verbal maturity examination

2 – advanced level or written maturity examination

 

If there is no points or ratings of the required exam for a specific subject in the graduation certificate of secondary education, the ranking value is set to zero points.

At the same time:

  • if there are only points for an extended exam in the graduation certificate of secondary education but points for a basic exam are expected in the qualification procedure, points from the extended exam are taken as points of basic exam,
  • if there is no grade for a written exam in the graduation certificate of secondary education but such a grade is expected in the qualification procedure, the oral exam grade is taken as the written exam grade,
  • subjects equivalent to Computer Science: Elements of Computer Science, Foundations of Computer Science, Information Technology, the subject equivalent to Physics and Astronomy: Physics.

The results obtained by a candidate holding a maturity certificate / secondary school graduation abroad are Polish converted into recruitment points (P) according to the formula:

P = 98 ( S-m) / (M - m) + 2

where:

S - is the calculated rating

M – maximum grade according to the scale used in a foreign school

m – minimum (admitting, qualifying) grade according to the scale used in a foreign school.


The purpose of the interview is to check the candidate's general knowledge in terms of taking up studies in a specific field, level, profile and is:

  • obligatory for persons applying for admission to studies on the basis of a document issued abroad, in connection with the submission of a document that is not a document confirming the right to apply for admission to studies, referred to in Article 326a(1) of the Act >>> check what this article says;
  • does not apply to persons with a secondary school-leaving certificate issued in the following countries: Australia, Austria, Belgium, Bulgaria, Canada, Chile, China, Colombia, Croatia, Cyprus, Czech Republic, Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Israel, Italy, Japan, Liechtenstein, Latvia, Lithuania, Luxembourg, Malta, Mexico, Netherlands, New Zealand, Norway, Portugal, Romania, Slovakia, Slovenia, Spain, Sweden, Switzerland, Turkey, Ukraine, United Kingdom, USA, Italy.

ISSUES:


  1. Fundamental and derived physical quantities. Systems of units and units of measurement.
  2. Kinematic description of uniform and uniformly accelerated rectilinear motion; uniform circular motion.
  3. The concept of force, determination of the resultant force; examples of forces, including drag and frictional forces.
  4. Inertial reference frames and Newton’s laws of motion.
  5. Mechanical work, power, kinetic energy, potential energy; the principle of conservation of mechanical energy.
  6. Newton’s law of universal gravitation.
  7. Elastic (restoring) force and harmonic motion under the influence of an elastic force.
  8. Transfer of energy in the form of heat between systems at different temperatures and in the form of mechanical work; illustrative examples.
  9. Specific heat capacity and latent heat associated with phase transitions.
  10. The concept of internal energy; the first law of thermodynamics as an expression of the conservation of energy principle.
  11. Coulomb’s law and its application in determining the magnitude of electrostatic interaction forces between point charges.
  12. Physical quantities characterizing electric current: current intensity, electric potential difference (voltage), electrical resistance, and electric power; corresponding SI units.
  13. Kirchhoff’s first law (current law) and Ohm’s law.
  14. Qualitative description of the effects of a magnetic field on current-carrying conductors and on moving charged particles.
  15. Electromagnetic induction and its relationship with the relative motion between a magnet and a coil, or with time-varying current in an electromagnet.
  16. Wave phenomena: diffraction and interference.
  17. Reflection and refraction of light at the interface between two media with different refractive indices (propagation velocities).
  18. Transverse and longitudinal waves; light as a transverse electromagnetic wave.
  19. Wave-particle duality of light.
  20. Emission and absorption spectra of gases; spectral lines as manifestations of transitions between discrete atomic energy levels, accompanied by the emission or absorption of photons.
  21. Nuclear reactions (transformations); conservation of nucleon number and electric charge.
  22. Application of the principle of energy conservation to nuclear reactions; the concepts of binding energy and mass defect.
  23. Characteristics of nuclear radiation; alpha, beta, and gamma decay.
  24. Biological effects of ionizing radiation on living organisms.
  25. Thermonuclear (fusion) reactions and representative examples.
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This project is co-financed by the European Union through the European Social Fund, Program Operacyjny Widza Edukacja Rozwój 2014-2020 "Nowoczesne nauczanie oraz praktyczna współpraca z przedsiębiorcami - program rozwoju Uniwersytetu Zielonogórskiego", POWR.03.05.00-00-Z014/18