Online PREMED Physics Course
Complete Physics Course for Medical and Science Applicants
📘 6 Chapters / 📖 83 Lessons | 📚 241 Visual Learning Cards | ❓ 600 multiple choice questions | 📝 300 Worksheets
Chapter-by-Chapter Overview
Chapter 1: Physical Quantities and Their Measurement
In this chapter, you'll explore the foundations of physics, starting with fundamental and derived quantities. You'll learn about SI and Technical measurement systems, prefixes for multiples and submultiples, and how to use scientific notation. The chapter also covers essential unit conversions and introduces scalar and vector quantities, along with basic vector operations.
Chapter 2: Kinematics
Kinematics is the branch of physics that describes how objects move. In this chapter, you’ll learn how to characterize motion using position, velocity, and acceleration. Explore linear, circular, and harmonic motion, and understand the laws and equations that govern these fundamental concepts.
Chapter 3: Dynamics
Dynamics explores the causes behind motion, focusing on how forces affect the behavior of objects. In this chapter, you'll study Newton's laws, types of forces, and the concepts of impulse, momentum, and energy. You'll also learn about torque, work, power, and the principles of conservation that govern motion and energy in physical systems.
Chapter 4: Fluid Mechanics
Fluid Mechanics examines the behavior of liquids and gases at rest and in motion. In this chapter, you'll explore fundamental properties like density and pressure, and dive into key principles such as Pascal’s, Stevin’s, and Archimedes’. You'll also study fluid flow, including the continuity equation, Bernoulli’s principle, and how viscosity affects real fluids.
Chapter 5: Thermodynamics
Thermodynamics explores how heat, energy, and work interact within physical systems. This chapter introduces temperature, heat transfer, and calorimetry, along with phase changes and the behavior of ideal gases. You'll also learn about the fundamental laws of thermodynamics, which govern energy conservation and the direction of natural processes.
Chapter 6: Electricity and Electromagnetism
This chapter explores the nature of electric charges and the forces between them, beginning with Coulomb’s law and the concept of the electric field. You'll study electric circuits, voltage, resistance, and the behavior of capacitors and resistors. The chapter also introduces current (both DC and AC), Kirchhoff’s laws, and the connection between electricity and magnetism through the magnetic field of a current.
Chapter 7: Modern Physics and Quantum Concepts
In this chapter, you'll dive into the revolutionary ideas that transformed our understanding of matter and energy. Beginning with the photoelectric effect and wave-particle duality, you'll trace the development of atomic models from Bohr to Schrödinger. You'll also explore the implications of the Heisenberg Uncertainty Principle and uncover how quantum numbers and atomic orbitals describe the behavior of electrons in atoms.
Chapter 8: Nuclear Physics and Radioactivity
This chapter explores the powerful forces at work inside the atomic nucleus. You'll learn about nuclear structure, mass defect, and binding energy, and examine the different types of radioactive decay. Key concepts include half-life, radioactive dating, and the energy released in nuclear reactions. The chapter concludes with a look at ionizing radiation and the safety measures used to protect against its effects.
Chapter 9: Geometric and Wave Optics
Here, you'll study how light behaves as both a particle and a wave. The chapter begins with the laws of reflection and refraction, then moves into image formation using lenses and mirrors. You'll learn about optical power, the refractive index, and how interference, diffraction, and polarization reveal the wave nature of light. Practical applications of polarized light are also introduced.
Chapter 10: Electromagnetic Radiation and Applications
This chapter focuses on the electromagnetic spectrum and the wide range of phenomena it includes. You'll examine how electromagnetic waves are generated and detected, and how their energy relates to frequency and photon behavior. The chapter also highlights real-world uses of electromagnetic radiation in technology and medicine, showing how these principles impact daily life.
Chapter 11: Semiconductors and Electronic Devices
In this chapter, you'll explore the role of semiconductors in modern electronics. Starting with electrical conductivity in different states of matter, you'll learn how the p-n junction forms the basis for devices like diodes, LEDs, and solar cells. You'll also study how transformers work, the function of power lines, and the importance of electrical safety in systems that rely on these technologies.
🎓 Ready for Medical & University-Level Physics
By the end of this course, students will be able to:
✅ Understand and apply key physics concepts from mechanics to electromagnetism
✅ Analyze motion, forces, energy, fluids, and thermodynamics with precision
✅ Master all required topics for IMAT, BMAT, A-Levels, and university entrance exams
✅ Solve real exam-style questions with confidence and accuracy
With 260+ theory lessons, 2900+ MCQs, and 300+ worksheets, it covers all IMAT, BMAT, and A-Level topics. Master every subject with clear explanations, real exam-style practice, and expert preparation for university-level science and medicine.