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Brand: Reliant Lab
Reliant Lab Torsion Pendulum Bridge Type (Small Size)
SKU: TB-RE-66456
Estimated Delivery By: Apr 17 - Apr 19 
MRP : ₹3889 ₹2499
36% OFF!
Estimated Delivery By: Apr 17 - Apr 19 Easy Return
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₹2499 (Including GST)
MRP : ₹3889
36% OFF!
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Short Description
Reliant Lab Torsion Pendulum Bridge Type
Small Size
Country of origin: India
Specifications
- Brand: Reliant Lab
- Disc Diameter : 15cm
- Dia Material : Aluminum
- Small Disc Dia : 8cm
- Disc Thickness : 1.25cm
Description
The Bridge Type Torsion Pendulum consists of a circular aluminum or brass disc (typically 15cm–25cm in diameter) suspended by a high grade metal wire. Unlike the simple disc model, it includes a U-shaped metal bridge with a split chuck mechanism. This bridge acts as a carrier, allowing users to place irregular bodies such as metal bars, cylinders, or even rectangular blocks onto the oscillating platform. By comparing the time period of the empty bridge with the time period when an object is loaded, students can precisely calculate the moment of inertia of complex shapes and the rigidity modulus of the suspension wire.
Features
:- Aluminum Measuring Disc: Features a lightweight yet rigid main disc that minimizes air resistance while maintaining high structural integrity.
- Split Chuck Mechanism: Equipped with high precision chucks at both the wall bracket and the disc to ensure the wire is held perfectly vertical and slip free.
- Irregular Object Testing: Specifically engineered to hold non cylindrical items, making it far more versatile than standard disc only pendulums.
- High Grade Suspension Wire: Includes a set of wires (usually steel or brass) with uniform cross-sections to ensure linear torsional constants.
Applications
:- Irregular Body Inertia: Calculating the moment of inertia for objects that do not have a simple mathematical formula for rotational inertia.
- Torsional Constant Determination: Finding the twisting couple per unit twist for various suspension lengths and diameters.
- Material Science Research: Observing how temperature or material fatigue affects the elastic properties of thin metal filaments.
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