- Farm & Garden
- Pumps & Motors
- Food Processing
- Workshop, DIY & MRO
- Lab & Measuring Tools
Brand: Reliant Lab
Reliant Lab Torsion Pendulum, Bridge Type (Big Size)
SKU: TB-RE-66459
Estimated Delivery By: Apr 17 - Apr 19 
MRP : ₹4498 ₹2999
33% OFF!
Estimated Delivery By: Apr 17 - Apr 19 Easy Return
& Refund
& Refund
Quality
Assurance
Assurance
Trusted
Delivery
Delivery
After Sales
Assistance
Assistance
Buyer
Protection
Protection
₹2999 (Including GST)
MRP : ₹4498
33% OFF!
Get Extra ₹45 OFF on Prepaid Orders
QTY :
-
1
+
Short Description
Reliant Lab Torsion Pendulum, Bridge Type
Big Size
Country of origin: India
Specifications
- Brand: Reliant Lab
- Dia Material : Aluminum
- Large Disc Dia : 25 cm
- Disc Thickness : 1.25cm
Description
The Big Size Bridge Type Torsion Pendulum is an advanced mechanics apparatus featuring a large diameter heavy duty aluminum or brass disc. It is characterized by its substantial U-shaped bridge assembly, which provides a wide, stable platform for resting large or heavy specimens. The system is suspended by high tensile strength wires and supported by a reinforced wall bracket designed to handle the increased load. This "Big Size" version is specifically preferred for experiments where higher rotational inertia is required to achieve slower, more easily measurable oscillation periods, thereby reducing human error during timing.
Features
:- Large Diameter Platform: Features an expansive 250mm–300mm disc that accommodates larger experimental objects compared to the small scale models.
- Heavy Duty Bridge Assembly: The reinforced U-shaped bridge is designed to remain perfectly balanced even when carrying significant asymmetrical loads.
- Superior Stability: The increased mass of the "Big Size" components naturally damps minor environmental vibrations, leading to cleaner oscillation data.
- Versatile Specimen Clamping: The flat bridge surface allows for the placement of rectangular blocks, heavy cylinders, or irregular castings for inertia analysis.
Applications
:- Rigidity Modulus of Heavy Wires: Determining the shear modulus for thicker metal rods or wires that require a higher mass to reach a stable oscillation.
- Verification of Rotational Laws: Proving the Parallel Axis and Perpendicular Axis Theorems using large scale physical models.
- Precision Metrology Labs: Used as a benchmark tool for calibrating smaller torsional devices and verifying the consistency of metal wires.
Questions & Answers (0)
Select attribute
