Course description

Physics is not just about memorizing formulas; it’s about understanding the world through measurement. This comprehensive course transforms standard lessons into an exciting scientific journey. It includes 11 theoretical modules and 54 practical works (29 laboratory experiments for students and 25 demonstrations). The course curriculum covers the following key areas:

  • Physics as Experimental Science: Familiarization with measurement devices, determining graduating marks, and measuring the volume and size of various bodies.

  • Mechanical Motion: Investigating circular movement, rotation periods, and the oscillation of pendulums.

  • Interaction of Bodies & Forces: Studying deformation, sliding and rolling friction, Archimedes' force, and measuring substance density.

  • Mechanical Work & Energy: Exploring the equilibrium conditions of levers and solid bodies.

  • Thermal Phenomena: Examining heat balance, diffusion, boiling processes, and determining body heating capacity.

  • Conservation Laws: Experimentally verifying the Conservation of Mechanical Energy.

  • Kinematics: Measuring average velocity, body acceleration, and free fall acceleration using mathematical pendulums.

  • Dynamics: Investigating Newton's laws, elastic body stiffness, friction coefficients, and the center of mass.

  • Properties of Matter: Researching isoprocesses (gas laws) and moisture film cohesion.

  • Thermodynamics: Using calorimetric methods to measure specific heat and melting heat.

Course curriculum

    1. L01. Section Description

    1. L01. Experiment Description

    1. L01. Experiment Description

    1. L01. Experiment Description

    1. L01. Section Description

    1. L01. Experiment Description

About this course

  • $20.00 / month
  • 68 lessons
  • 0 hours of video content

Who this course is for

  • High School & University Students:

    To prepare for exams and gain confidence in practical laboratory work.

  • STEM Enthusiasts & Future Engineers:

    To master the use of precision tools like vernier calipers, micrometers, and calorimeters.

  • Science Teachers:

    To enhance their teaching toolkit with 25 ready-to-use demonstrations and a structured experimental curriculum that saves preparation time.

Problems we help you solve

  • Theory Disconnect: You know the equations but struggle to see how they apply to the real world. We provide physical proof.

  • Lack of Practical Skills: You need experience with real scientific equipment, not just simulations.

  • Data Analysis Struggles: You find it hard to calculate errors or interpret results. Our AI assistant guides you through the math.

  • Complex Concepts: Abstract ideas like "specific heat capacity" or "moment of force" become clear when you measure them yourself.

Results after completion

After completing this course, you will possess the mindset and skills of a researcher, ready to tackle complex scientific challenges.

  • Master Experimental Techniques: You will confidently use dynamometers, stopwatches, and balances to gather precise data.

  • Verify Physical Laws: You will experimentally prove Newton’s Laws, Archimedes' Principle, and the Conservation of Energy.

  • Analyze Scientific Data: You will learn to process experimental results, calculate standard deviations, and build professional graphs.

  • Deepen Conceptual Understanding: You will intuitively understand the mechanics of motion and the thermodynamics of matter.

  • Collaborate with AI: You will learn to effectively use AI tools to verify your scientific findings and enhance learning.

Discover your potential, starting today

Enroll today

Course authors

Developer and Publisher:

UNOWA Sp. z o.o.

Zwierzyniecka 30/34, 60-814 Poznań, Poland

KRS: 0001022658 25252525


Rights Holder:

© 2026 UNOWA Sp. z o.o. All rights reserved.