Tests | Topical Physics Practice | with explanations

Improve your physics knowledge with the course "Tests | Topical Physics Practice | with explanations"! This course is designed for complete revision of all major school physics topics. Topic-based tests with explanations help learners understand laws and phenomena better, strengthen knowledge, and prepare confidently for the NMT and other final assessments.

Why choose this course:

• Full topic coverage: Includes all essential school physics sections in one course.
• Practice with explanations: Learn from each answer and understand the logic behind every task.
• Clear structure: Organized topics make revision simple and effective.
• Exam preparation: Regular practice improves confidence and performance.
• Skill development: Tasks build logical thinking, accuracy, and formula application skills.

Course content

• Mechanics:
• Kinematics: basic concepts of kinematics
• Kinematics: rectilinear motion
• Kinematics: motion under gravity
• Kinematics: circular motion
• Dynamics: resultant force and Newton’s laws
• Dynamics: basic forces
• Conservation laws in mechanics
• Elements of fluid and gas mechanics
• Molecular Physics and Thermodynamics:
• Basics of molecular kinetic theory
• Basics of thermodynamics
• Properties of states of matter
• Humidity, surface tension, capillary phenomena
• Thermal balance equation
• Electrodynamics:
• Basics of electrostatics
• Laws of direct current
• Electric current in different media
• Magnetic field, electromagnetic induction
• Oscillations and Waves. Optics:
• Mechanical oscillations and waves
• Electromagnetic oscillations and waves
• Optics
• Quantum Physics. Elements of Relativity:
• Elements of relativity theory
• Light quanta
• Atom and atomic nucleus

Main course information

Expected learning outcomes after completing the course:

Knowledge component:
The learner knows and understands the main concepts and laws of mechanics (motion, forces, Newton’s laws, energy), molecular physics and thermodynamics (structure of matter, temperature, thermal processes), electrodynamics (electric current, voltage, resistance, magnetic phenomena), oscillations, waves and optics (types of waves, sound, light, optical phenomena), as well as the basic ideas of quantum physics and relativity.

Practical component:
The learner can solve topic-based test tasks from each section: determine motion characteristics in mechanics, calculate thermal quantities, apply electric circuit laws, analyze wave and optical phenomena, work with formulas and graphs, explain results, and correct mistakes using hints and explanations.

Value component:
The course develops an understanding of the physical picture of the world through different branches of physics, awareness of the practical importance of knowledge in technology, nature, and everyday life, interest in the subject, logical thinking, attention, and persistence while solving tasks.

Required skills

Basic school physics knowledge is recommended. Learners should understand key physical concepts and laws, know how to work with formulas, and perform simple calculations. Attention during tests, the ability to analyze mistakes through explanations, and basic mathematics skills (algebra, proportions, elementary formula transformations) are also important.

Recommendations:

• Practice regularly by topic.
• Review explanations after each test.
• Repeat difficult sections.
• Track your progress.
• Use the course for exam preparation.