220
- to use physical and mathematical models understanding its role in the tasks on
Physics;
- to make up plans for solving specific tasks and reasoning algorithms for
different types of tasks;
- to find common approaches to solving tasks on various themes, in various
forms;
- to use qualitative methods and estimated judgments in solving the tasks;
- to use already solved tasks for improvement and deepening one’s knowledge;
- to check physical sense of solving.
Assessment of pupils’ performance according
to teaching course
1. There is a level test
after learning each major section (kinematics, dynamics,
molecular physics and thermodynamics, electrodynamics),
2. There is a test and participation in academic competition as “Parusa nauki” on
completing the teaching course.
Course schedule
Introduction - 1 hour.
Methods of physical knowledge. What you should know about the phenomena,
values, laws, theories.
Stages of solving the majority of physical tasks. Actions with vectors and its
projections.
Kinematics - 3 hours.
Kinematics of rectilinear uniform and uniformly accelerated motion.
Instantaneous and average speed. Acceleration. Translational and rotational
motion. Free - falling bodies.
Dynamics – 10 hours.
Newton's Laws. Motion related bodies, motion along an inclined plane. Body
weight, gravity free. Conical pendulum. Conservation laws.
The Law of conservation
of momentum. The Law of conservation of energy in a closed system of bodies
taking into account resistance forces. Mechanical work and power. Energy. Working
as an energy conservation measure. Law of Archimedes. Hydroaerostatics. Flotation
conditions. Pressure and pressure forces at any point within the fluid at rest. Pascal's
Law. Bernoulli's Law.
Thermal effects - 4 hours.
Molecular physics. Basic equation of MKT (molecular kinetic theory), equation
of state. Gas laws, tube. Piston compressor. Heat transfer. Aggregate transformation
of substance. Quantity of heat. Thermodynamics. Internal energy and ways of its
change. Heat balance equation. Saturated and unsaturated vapors. Humidity. Gas
running. The First Law of thermodynamics and its application to isolating processes.
Electrostatics - 3 hours.
Coulomb's Law. Charge conservation Law. Dielectric field intensity. Potential
difference. Electric capacitance.
Electric current - 3 hours.
Ohm's Law for subcircuit, Ohm's Law for closed circuit. Wire splice. Work,
power and thermal effect of current.
Vibrations and waves - 3 hours.
221
Mass on a spring. Mathematical pendulum. Oscillatory circuit. Equations of
harmonic oscillations: 1) mechanical (coordinates, acceleration speed), 2)
electromagnetic (charge, current intensity).
Optics of physicist. 3 hours.
Laws of reflection and refraction of light. Total internal reflection. Thin lens
formula. Optical power, lens magnification. Diffraction grating formula. Position of
maximum and minimum of interference pattern.
Testing. Preparing for an academic competition -2 hours
Reflection - 2 hours.
№
Theme of subject
Discussion
matters
Academic
hours
Among them
Form of work
Theory Practice
Introduction
Tasks and its
classification
Methods and
techniques of
solution
1
1
Review
lecture
KINEMATICS
Kinematics of
rectilinear uniform
and uniformly
accelerated motion
3
1
2
Review lecture
Comment to
section. Support
members.
Algorithms.
1
Illustrative tasks
1.
Tasks solving
practical manual
Emphasizing of
tasks’ types
Independent
work
of pupils
consulted by the
teacher
The main unit of
tasks ordered by
level of
difficulty
1
3. DYNAMICS
10
1. Newton's Laws.
3
1
2
Comment to
section. Support
members.
Algorithms.
1
Review lecture
Illustrative tasks
1
Tasks solving
practical manual
Emphasizing of
tasks’ types
Independent
work of pupils
consulted by the
The main unit of
tasks ordered by
level of
difficulty
1