- Farm & Garden
- Pumps & Motors
- Food Processing
- Workshop, DIY & MRO
- Lab & Measuring Tools
Brand: Reliant Lab
Reliant Lab Inertia Disc (Iron) 6 inch Dia Disc With Clamping Arrangement
SKU: TB-IN-66464
Estimated Delivery By: Apr 16 - Apr 18 
MRP : ₹2319 ₹1599
31% OFF!
Estimated Delivery By: Apr 16 - Apr 18 Easy Return
& Refund
& Refund
Quality
Assurance
Assurance
Trusted
Delivery
Delivery
After Sales
Assistance
Assistance
Buyer
Protection
Protection
₹1599 (Including GST)
MRP : ₹2319
31% OFF!
Get Extra ₹24 OFF on Prepaid Orders
QTY :
-
1
+
Short Description
Inertia Disc (Iron) 6 inch Dia Disc
With Clamping Arrangement
Country of origin: India
Specifications
- Brand: Reliant Lab
- Product Quantity : 1 Piece
- Disc Diameters : 15 cm
- Thick : 6mm
Description
The Inertia Disc is a precision machined, solid iron circular plate with a 6-inch (150mm) diameter and a substantial thickness to provide significant rotational mass. It features a central clamping arrangement, typically a split chuck or a heavy duty nut and bolt system, allowing it to be securely attached to a suspension wire or a rotating shaft. The iron construction ensures a high moment of inertia, which results in slower, more measurable oscillation periods, reducing the margin of error in student led experiments. The disc is usually finished with a protective coating to prevent oxidation and ensure long term durability in laboratory environments.
Features
:- Heavy-Duty Iron Construction: Crafted from high density cast iron to provide a significant moment of inertia for stable, long-lasting oscillations.
- Balanced Mass Distribution: Carefully balanced during manufacturing to ensure the center of gravity aligns perfectly with the center of rotation.
- Durable Protective Finish: Coated with a hammer-tone or powder-coated finish to resist rust and mechanical wear.
- Universal Compatibility: Designed to fit standard Torsion Pendulums, Maxwell’s Needles, and other rotational dynamics setups.
Applications
:- Angular Simple Harmonic Motion: Demonstrating the principles of SHM where the restoring torque is proportional to angular displacement.
- Conservation of Angular Momentum: Investigating how adding masses to the disc at different radii affects its angular velocity.
- Torsional Constant Analysis: Determining the "twisting couple per unit twist" for various material filaments (Steel, Brass, Copper).
- Engineering Dynamics: Serving as a foundational tool for mechanical engineering students to understand flywheel effects and rotational energy.
Questions & Answers (0)
Select attribute
