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Brand: Reliant Lab
Reliant Lab Fly Wheel (To Determine The Moment of Inertia) Dia 25cm, With Counter
SKU: TB-RE-66468
Estimated Delivery By: Apr 17 - Apr 19 
MRP : ₹15999 ₹10699
33% OFF!
Estimated Delivery By: Apr 17 - Apr 19 Easy Return
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₹10699 (Including GST)
MRP : ₹15999
33% OFF!
Get Extra ₹160 OFF on Prepaid Orders
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Short Description
Reliant Lab Fly Wheel Dia 25cm
With Counter
To Determine The Moment of Inertia
Country of origin: India
Specifications
- Brand: Reliant Lab
- Dia Size : 25 cm
- Counter : With Counter
Description
The Reliant Lab 25cm Flywheel is a robust instrument used to determine the Moment of Inertia of a rigid body. It features a heavy, precision-balanced cast iron wheel with a 250mm diameter, mounted on a horizontal steel axle. The axle is supported by high-quality, low-friction ball bearings within a reinforced cast iron frame. This model is equipped with a mechanical or digital revolution counter, which automatically logs the number of rotations. By measuring the number of turns the wheel makes after a falling mass is released, students can precisely calculate the work done against friction and the energy stored within the rotating mass.
Features
:- Large 25cm Cast Iron Wheel: The increased diameter and mass provide a substantial moment of inertia, leading to longer rotation times and more stable data collection.
- Integrated Revolution Counter: Features a high-accuracy counter that records every turn of the wheel, eliminating the errors associated with manual counting.
- Low-Friction Ball Bearings: Precision-engineered bearings ensure that energy loss is minimized and consistently distributed, which is crucial for calculating frictional torque.
- Polished Steel Axle with Peg: The axle includes a specialized peg for the secure attachment and clean release of the driving string and mass.
Applications
:- Frictional Torque Analysis: Using the total revolution count to calculate the exact energy lost to mechanical friction.
- Rotational Kinetic Energy: Demonstrating the conversion of potential energy ($mgh$) into rotational energy.
- Engineering Dynamics: Providing a practical study of how flywheels smooth out power delivery in engines and mechanical systems.
- Advanced Physics Practicals: A standard experiment for undergraduate physics students to master the equations of rotational motion.
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