Physics Mechanics (Laboratory Manual) Semester-I By Syed Hamad Bukari - Quanta

Publisher: QUANTA PUBLISHER

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SKU: 53819

Rs.170.00

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"Physics Mechanics (Practical Manual)" by Syed Hamad Bukari is a comprehensive guide designed to accompany theoretical coursework on mechanics for students in their first semester. This manual provides a hands-on approach to understanding fundamental principles of classical mechanics through a series of practical experiments and exercises. With clear instructions, illustrations, and data analysis guidelines, students can develop essential laboratory skills while reinforcing theoretical concepts in mechanics.

Key Experiments:

Measurement of Time and Length - Experiment to measure time intervals and lengths accurately using appropriate instruments such as stopwatches and rulers.
Study of Motion on an Inclined Plane - Investigation of the motion of objects on inclined planes to understand concepts such as acceleration, velocity, and forces acting on the objects.
Verification of Laws of Motion - Experimental verification of Newton's laws of motion through simple setups involving dynamics carts, pulleys, and force sensors.
Analysis of Projectile Motion - Study of projectile motion by launching objects at different angles and velocities and analyzing the trajectory and range of the projectiles.
Measurement of Frictional Forces - Determination of coefficients of friction between different surfaces using inclined planes and force sensors.
Verification of Conservation of Momentum - Experiment to verify the conservation of linear momentum using collisions between objects of known masses.
Study of Simple Harmonic Motion - Investigation of simple harmonic motion using pendulums or spring-mass systems and analysis of oscillation frequencies and periods.
Centripetal Force Experiment - Demonstration of centripetal force using rotating systems and measurement of forces required to maintain circular motion.
Analysis of Torque and Rotational Dynamics - Study of rotational motion and torque using rotating disks, pulleys, and moments of inertia measurements.
Energy Conservation Experiment - Verification of the principle of energy conservation through experiments involving pendulum swings, potential and kinetic energy measurements.