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Brand: Reliant Lab
Reliant Lab Fly Wheel (To Determine The Moment of Inertia) Dia 25cm, Without Counter
SKU: TB-RE-66467
Estimated Delivery By: Apr 17 - Apr 19 
MRP : ₹13049 ₹9999
23% OFF!
Estimated Delivery By: Apr 17 - Apr 19 Easy Return
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₹9999 (Including GST)
MRP : ₹13049
23% OFF!
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Short Description
Reliant Lab Fly Wheel Dia 25cm
Without Counter
To Determine The Moment of Inertia
Country of origin: India
Specifications
- Brand: Reliant Lab
- Dia Size : 25 cm
- Counter : Without Counter
Description
The Reliant Lab 25cm Flywheel is a robust metrology tool used to determine the Moment of Inertia of a rotating body. It consists of a large, precision-machined cast iron wheel with a 25cm (250mm) diameter, featuring a wide, heavy rim to maximize rotational inertia. The wheel is mounted on a hardened steel axle supported by high-quality, low-friction ball bearings. The entire assembly is housed in a heavy-duty cast iron frame designed for bench or wall mounting. This "Without Counter" version is specifically intended for manual measurement, where students count the revolutions visually to understand the relationship between angular velocity, frictional torque, and energy conservation.
Features
:- Large 25cm Diameter Wheel: Provides a greater mass and radius compared to standard models, resulting in a higher moment of inertia and more stable rotation.
- Low-Friction Ball Bearings: High-performance bearings minimize energy loss due to friction, allowing the wheel to spin for a longer duration for more accurate data collection.
- Hardened Steel Axle: Features a polished surface to reduce wear and a small peg for the reliable attachment and release of the drive string.
- Stable Mounting Base: The cast iron frame includes pre-drilled holes for secure bolting, preventing vibrations even at high angular velocities.
Applications
:- Conservation of Energy Studies: Demonstrating the conversion of gravitational potential energy into rotational kinetic energy.
- Angular Velocity and Acceleration: Measuring the change in speed as different weights are used to drive the flywheel.
- Dynamics of Rigid Bodies: Teaching students about the resistance of a rotating object to changes in its rotational motion.
- Engineering Mechanical Labs: Serving as a foundational experiment for mechanical engineers to understand energy storage in flywheels.
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