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Physics 2 (FIZ1008)

Course code

Course group

Volume in ECTS credits

Course hours

FIZ1008

C

6

160

Course type (compulsory or optional)

Compulsory

Course level (study cycle)

Bachelor

Semester the course is delivered

Autumn

Study form (face-to-face or distant)

Face-to-face

Course title in Lithuanian

FIZIKA II (ELEKTROMAGNETIZMAS IR OPTIKA)

Course title in English

PHYSICS II (ELECTROMAGNETISM AND OPTICS)

Short course annotation in Lithuanian

Dalyką sudaro dvi pagrindinės dalys. Pirmojoje dalyje supažindinama su elektromagnetizmo pagrindais: elektrostatika, magnetostatika, elektromagnetine indukcija, Maksvelio lygtimis, elektromagnetinėmis bangomis. Antroji kurso dalis skirta fizikinei ir geometriniai optikai: optinėms bangoms, terpių optinės savybėms, šviesos interferencijai ir difrakcijai, geometrinės optikos dėsniams, optiniams prietaisams.

Short course annotation in English

This course is divided into two components. The first component is basic electromagnetism: the laws of electrostatics, magnetism and electromagnetic induction, Maxwell's equations, electromagnetic waves. The second component of the course gives a general coverage of physical and geometrical optics: introduction to light as an electromagnetic wave, the properties of optical media, light interfaces and diffraction, geometric optics lows, optical instruments.

Prerequisites for entering the course

Mathematics I, Mathematics II, Physics I.

Course aim

The main goal is to develop an understanding of basic laws of electromagnetic and optic phenomena, to teach to apply acquired knowledge to solve simple problems of electromagnetism and optics, to form basic skills of electrical and optical measurements.

Content (topics)

 1. Electric charge.
 2. The electric field.
 3. Capacitors.
 4. Electric field in dielectrics.
 5. Electric current and dc circuits.
 6. The magnetic field.
 7. Charge movement in a electromagnetic field.
 8. Magnetic field in matter, dia and paramagnetism.
 9. Electromagnetic induction
 10. Ac current
 11. Electromagnetic waves and optical waves.
 12. Light polarization
 13. Light interference.
 14. Light diffrakcion
 15. Geometrical optics, optical instruments.

Practical work (contents):

Laboratory works: Kirchhoff’s rules, LRC circuit, Ampere’s law, Light reflection and refraction laws, Monochromatic light diffraction.

Distribution of workload for students (contact and independent work hours)

Lectures – 45 hours, seminars – 15 hours, laboratory works – 15 hours, individual work – 85 hours.

Structure of cumulative score and value of its constituent parts

Final assessment sums the assessments of written final examination (50%), written mid-term examination (20%) and assessment of practical works: seminars (15 %), laboratory (15%).

Recommended reference materials

No.

 

Publication year

Authors of publication and title

Publishing house

Number of copies in

University library

Self-study rooms

Other libraries 

Basic materials

1.

2004

Girdauskas V., Elektra ir magnetizmas: paskaitų iliustracijos

Course material in intranet

 

 

 

2.

2008

Girdauskas V., Optika: paskaitų iliustracijos

Course material in intranet

 

 

 

3.

1989

Tamašauskas A., Vosylius J. Fizika 2T.

Mokslas

30

 

 

Supplementary materials

1.

2010

A.Bogdanovičius, Fizikos pagrindai inžinerijoje. 2 dalis

Vilnius technika

 

1

10

Course programme designed by

Doc.dr. Valdas Girdauskas, Physics department, Facukty of Natural Sciences

Additional information