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CBSE 11 Physics Part 2
Explore and master the fundamentals of CBSE 11 Physics Part 2
You've not yet enrolled in this course. Please enroll for free to listen to audio lessons, classroom podcasts and take practice test.Chapter 8
MECHANICAL PROPERTIES OF SOLIDS
The chapter delves into the mechanical properties of solids, focusing on the concepts of stress and strain, Hooke's law, and the various moduli of elasticity. It explores how materials respond to forces through deformation and the principles guiding their applications in engineering design. Additionally, critical concepts such as the stress-strain curve and the limits of elastic behavior are emphasized, providing a comprehensive understanding of how materials react under loading conditions.
Chapter 9
MECHANICAL PROPERTIES OF FLUIDS
The chapter provides an in-depth exploration of the mechanical properties of fluids, emphasizing key concepts such as pressure, viscosity, surface tension, and Bernoulli's principle. It highlights the behavior of liquids and gases under different conditions, the principles of fluid dynamics, and real-world applications of these concepts. Understanding these properties is crucial for various scientific and engineering domains.
Chapter 10
THERMAL PROPERTIES OF MATTER
This chapter delves into the thermal properties of matter, focusing on heat, temperature, and their measurement. It explains how heat flows between bodies and the various processes involved in energy transfer, including conduction, convection, and radiation. The chapter also covers the concepts of latent heat, thermal expansion, and the ideal gas laws, providing a comprehensive understanding of thermal dynamics.
Chapter 11
THERMODYNAMICS
Thermodynamics examines the principles governing heat and energy transfer. It defines key concepts such as temperature, internal energy, and work, emphasizing the distinctions between heat and energy. Central to this field are the laws of thermodynamics, including the Zeroth, First, and Second Laws, which guide the behavior of thermal systems and the efficiency of heat engines.
Chapter 12
KINETIC THEORY
The chapter delves into kinetic theory, explaining gas behavior based on molecular movement. It discusses the molecular nature of matter, the ideal gas law, and properties of gases, including pressure, temperature, and volume relationships. The law of equipartition of energy is also introduced, highlighting energy distribution among gas molecules, alongside mean free path estimation.
Chapter 13
OSCILLATIONS
The chapter explores oscillations, defining periodic and oscillatory motions, and detailing the principles behind simple harmonic motion (SHM), including its characteristics and mathematical representations. It also discusses the connections between SHM and uniform circular motion. Finally, the dynamics of a simple pendulum and the energies involved in SHM are examined.
Chapter 14
WAVES
This chapter discusses the properties and behavior of waves, including their types, propagation, and mathematical descriptions. Emphasis is placed on mechanical waves, both transverse and longitudinal, as well as the principles of superposition and reflection. The chapter concludes with applications of wave phenomena, such as standing waves, beats, and sound propagation in different media.