Practical applications utilize theoretical concepts in real-world scenarios, enhancing technology, efficiency, safety, and problem-solving across engineering, medicine, and daily life.
Class 11 Physics
Systems of Particle & Rotational Motion
CBSE EXAM 2024-25
The concept of moment of inertia has many practical applications, especially in systems involving rotational motion. It plays a crucial role in engineering, physics, and everyday technologies. One of the most important applications is in ‘flywheels’, which are used in engines to store rotational energy. Flywheels with high moments of inertia help maintain consistent rotational speeds and smooth out fluctuations in engine power.
In ‘bicycles, the moment of inertia of wheels’ determines how stable it will be and also how easy or hard it is to pedal. More balanced moments of inertia in a wheel provide control and conserve momentum. Similarly, ‘crankshafts in vehicle engines are designed with precise moments of inertia’ to supply power smoothly while minimizing vibrations.
In sports such as gymnastics and diving, athletes take advantage of the concept of moment of inertia by changing their body positions to control rotational speeds. For example, pulling limbs closer to the body reduces the moment of inertia, increasing spin speed.
In ‘spacecraft design’, the moment of inertia is of great importance for stability and exact control in the rotation in space. ‘Pendulum clocks’ also depend on the moment of inertia of the pendulum to regulate the oscillations so that the clock keeps accurate time.
Last but not least, in ‘engineering structures’, the moment of inertia is used in designing beams and shafts in order to make them resistant to bending and torsion under loads.
Click here for more : – https://www.tiwariacademy.com/ncert-solutions/class-11/physics/chapter-6/