Practical Physics Experiment PDF
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Uploaded by AutonomousFir5667
Delta University Egypt
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Summary
This document details a series of practical physics experiments, focusing on stress, strain, surface tension, and the speed of sound in air. The experiments include definitions, laws, and calculations, providing a comprehensive look at these concepts using practical methods.
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Experiment Definitions Laws request unit range 1- Stress is the external force (F) acting on an object per unit extension cm/gm β€1 Verifying cross-sectional area (A). βπ³ = π...
Experiment Definitions Laws request unit range 1- Stress is the external force (F) acting on an object per unit extension cm/gm β€1 Verifying cross-sectional area (A). βπ³ = π π΄ per unit Hook's π mass of πΊπππππ = Law π¨ the load Strain is the change in length per unit length that a (n) material undergoes when a force is applied to it. βπ³ πΊπππππ = π³π Strain is a measure of the degree of deformation. Conclusion: If the graph is a straight line, then the extension of the spring is directly proportional to the tension in the spring, which verifies Hook's law. Experiment Definitions Laws request unit range cm 2-Determination of surface Surface tension is the ππ Drop radius (r) 0.10 - tension (by drop weight unbalanced force acting on the = 3.8ππΎ 0.2 method) free surface of a liquid tending to reduce the surface area to minimum. Factors affecting surface tension: 1. Nature of the liquid molecules. 2. Temperature: It decreases as temperature rises. 3. Chemical impurities. β¦β¦β¦β¦β¦β¦ are compounds that lower the surface tension. Surface tension Experiment Definitions Laws request unit range 3- Determination of ββ Bending's modulus (or Dyne/cm2 β¦X1012 the Bending's ππΏ3 Flexural modulus) Modulus = π 4ππ 3 πΈπ΅ Experiment Definitions Laws request unit range 4- Sound Speed of sound in cm/sec 30000- Determination Is a longitudinal wave consists of π air (V) 40000 of speed of compressions and relaxations. π π = ( ) β π. ππ Sound in air π π cm 1.5 Standing waves consists of nodes Radius of the tube and anti-node. (R) In the speed of sound experiment, the intersection in the (L βaxis) equal to β¦β¦β¦..
