1. Kinetics Theory of Gases: Understanding the behavior and properties of gases through statistical mechanics.
2. Simple Hormones Motion: Exploring the basic principles of motion and its application to hormones.
3. Wave Motion: Delving into the nature and characteristics of waves, including wave equations and properties.
4. Capacitor: Unveiling the fundamentals of capacitors and their role in storing electrical energy.
5. Electrostatic: Investigating the phenomena of static electricity, Coulomb’s law, and electric fields.
6. Magnetism: Unlocking the mysteries of magnets, magnetic fields, and magnetic forces.
7. EMI (Electromagnetic Induction): Examining the phenomenon of electromagnetic induction and its applications.
8. Alternative Current: Understanding the principles of alternating current (AC) circuits and analysis techniques.
9. Ray Optics: Exploring the behavior of light using geometric optics, including reflection and refraction.
10. Wave Optics: Diving into the fascinating world of wave optics, including interference, diffraction, and polarization.
11. Dual Nature of Atoms: Investigating the wave-particle duality of atoms and the principles of quantum mechanics.
12. Semiconductor: Understanding the properties and applications of semiconductors in electronic devices.
13. Atoms and Nucleus: Exploring the structure of atoms, atomic models, and the nature of the atomic nucleus.
14. Vectors: Mastering the concepts of vectors, vector operations, and their applications in physics.
15. Motions in a Straight Line: Analyzing motion along a straight line, including velocity, acceleration, and displacement.
16. Motions in a Plane: Studying the motion of objects in two dimensions, covering projectile motion and circular motion.
17. Newton’s Laws of Motion: Unraveling the principles of motion laid out by Sir Isaac Newton, including force, mass, and acceleration.
18. Work, Energy, and Power: Understanding the concepts of work, energy, and power, including their interrelationships.
19. Center of Mass: Exploring the center of mass and its significance in the study of systems of particles.
20. Rotational Motion: Examining the dynamics of rotating objects, torque, angular momentum, and rotational kinematics.
21. Circular Motion: Investigating the principles governing circular motion, including centripetal force and acceleration.
22. Thermal Properties: Understanding the behavior of matter regarding temperature, heat, and specific heat capacity.
23. Thermodynamics: Delving into the laws of thermodynamics and their applications to heat engines and energy transfer.
24. Gravitation: Unveiling the force of gravity and its effects on celestial bodies, orbits, and planetary motion.
Reviews
There are no reviews yet.