Hello,Welcome to StudentBro.
Hello,Welcome to StudentBro.
Hello,Welcome to StudentBro.
Elasticity is the property of a material to regain its original shape and size after the removal of external force. NEET Physics includes elasticity as a key chapter under mechanical properties of solids.
StudentBro notes provide clear explanations, definitions, formulas, and problem-solving techniques to help NEET aspirants understand and apply concepts of elasticity effectively.
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1. Vectors |
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2. Units and Measurements |
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3. Motion In a Straight Line |
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4. Motion In A Plane |
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5. Laws of Motion |
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6. Friction |
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7. Work, Energy and Power |
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8. System Of Particles and Rotational Motion |
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9. Gravitation |
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10. Elasticity |
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11. Surface Tension |
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12. Mechanical Properties of Fluids |
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13. Thermal Properties of Matter |
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14. Kinetic Theory |
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15. Thermodynamics |
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16. Transmission of Heat |
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17. Simple Harmonic Motion |
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18. Wave and Sound |
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19. Current Electricity |
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20. Heating & Chemical Effects of Current |
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21. Magnetic Effect of Current |
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22. Magnetism And Matter |
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23. Electromagnetic Induction |
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24. Alternating Current |
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25. Dual Nature Of Radiation And Matter |
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26. Atomic And Nuclear Physics |
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27. Semiconductor Electronics |
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28. Communication |
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29. Ray Optics And Optical Instruments |
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30. Wave Optics |
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31. Universe |
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32. Physics Formula PDF for Entrance Exam |
Definition: Stress is the internal resistance offered by a body per unit area to deformation caused by external force.
Formula: Stress = F / A
Types of stress:
Tensile stress – due to stretching
Compressive stress – due to compression
Shear stress – due to tangential force
NEET frequently tests conceptual understanding of stress in solids.
Definition: Strain is the measure of deformation produced in a material per unit length.
Formula: Strain = ΔL / L
Types of strain:
Tensile strain – elongation per unit length
Compressive strain – shortening per unit length
Shear strain – angular deformation
Strain is a dimensionless quantity and often appears in NEET numerical problems.
Statement: Within the elastic limit, the stress applied to a body is directly proportional to the strain produced.
Formula: Stress ∝ Strain or F = kx for a spring
Hooke’s law is fundamental for solving NEET problems on elastic bodies, springs, and wires.
StudentBro notes emphasize graphical representation of stress-strain curve for better conceptual understanding.
Elasticity of a material is characterized by moduli of elasticity:
Young’s Modulus (Y)
Measures resistance to tensile or compressive deformation
Formula: Y = Tensile Stress / Tensile Strain = (F / A) / (ΔL / L)
NEET questions often ask to calculate elongation or compression using Y.
Bulk Modulus (K)
Measures resistance to volume change under uniform pressure
Formula: K = - Pressure / (ΔV / V)
Important for problems involving fluids and pressure-induced volume changes.
Shear Modulus (η or G)
Measures resistance to shear deformation
Formula: G = Shear Stress / Shear Strain
Useful in NEET for solids subjected to tangential forces.
Definition: Ratio of lateral strain to longitudinal strain in a stretched material
Formula: σ = Lateral Strain / Longitudinal Strain
Typical values: 0 < σ < 0.5
Appears in NEET numerical problems related to elongation and volume change in solids.
Definition: Work done in deforming a body is stored as elastic potential energy.
For a stretched or compressed wire: U = ½ Stress × Strain × Volume
For a spring: U = ½ k x²
NEET questions often involve calculating energy stored in springs or elastic rods.
Elastic limit: Maximum stress where the body returns to its original shape
Yield point: Stress at which permanent deformation begins
Ultimate stress: Maximum stress the material can withstand
Fracture point: Stress at which the material breaks
StudentBro notes explain the curve in detail for NEET aspirants to identify important points.
Relationship among Young’s modulus (Y), Bulk modulus (K), Shear modulus (G), and Poisson’s ratio (σ):
Y = 2G(1 + σ) = 3K(1 − 2σ)
Useful for solving NEET problems involving multiple moduli.
Stretching and compression of wires and rods
Springs and their energy storage
Understanding mechanical properties of solids in real-life applications
Stress analysis in beams, bridges, and structures
Mastery of elasticity ensures aspirants can solve both theoretical and numerical questions effectively.
Memorize definitions and formulas for stress, strain, and all elastic moduli.
Practice stress-strain curve identification and interpretation.
Solve numerical problems on elongation, volume change, and shear deformation.
Understand elastic potential energy calculations for wires and springs.
Relate conceptual understanding with real-life examples to retain formulas better.
StudentBro notes are structured to help aspirants implement these tips effectively.
Covers stress, strain, Hooke’s law, elastic moduli, Poisson’s ratio, and elastic potential energy
Step-by-step examples and diagrams included for clarity
Structured for easy revision and conceptual understanding
Focused on NEET syllabus and high-yield problems
These notes ensure aspirants can confidently tackle elasticity questions in NEET exams.
The chapter Elasticity is a crucial part of NEET Physics under mechanical properties of solids. Mastery of stress, strain, Hooke’s law, elastic moduli, Poisson’s ratio, and elastic potential energy is essential for solving conceptual and numerical problems.
StudentBro NEET Physics notes provide structured, clear, and exam-focused guidance, enabling aspirants to confidently solve elasticity problems and excel in NEET exams.
