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Brand: Reliant Lab
Reliant Lab Compound Pendulum ( Brass )
SKU: TB-RE-66526
Estimated Delivery By: Apr 17 - Apr 19 
MRP : ₹4699 ₹3199
32% OFF!
Estimated Delivery By: Apr 17 - Apr 19 Easy Return
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₹3199 (Including GST)
MRP : ₹4699
32% OFF!
Get Extra ₹48 OFF on Prepaid Orders
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Short Description
Reliant Lab Compound Pendulum
Brass
Country of origin: India
Specifications
- Brand: Reliant Lab
- Bar Dimension : 100 x 25 x 0.6cm
- Difference Between each Hole : 5 cm
Description
The Reliant Lab Compound Pendulum (Brass) is a premium educational apparatus used in advanced physics laboratories to study the laws of rotational motion and oscillation. Unlike standard steel versions, this pendulum is crafted from high-quality, heavy-gauge brass, offering superior corrosion resistance and a distinct mass distribution. The apparatus consists of a uniform brass bar with a series of equidistant holes, allowing it to be suspended at various distances from its center of gravity. It serves as a physical pendulum to accurately determine the acceleration due to gravity and the radius of gyration.
Features
:- High-Grade Brass Construction: Fabricated from a solid, polished brass bar that ensures long-term durability and resistance to oxidation in humid environments.
- Adjustable Knife Edges: Supplied with two hardened steel knife edges that provide a low-friction pivot point for sustained oscillations.
- Precision-Bored Holes: Features a series of accurately spaced holes along the longitudinal axis for varying the point of suspension.
Applications
:- Accurate Determination : Used to calculate the local acceleration due to gravity by analyzing the relationship between the suspension point and the period of oscillation.
- Rotational Inertia Studies: Essential for verifying the parallel axis theorem and calculating the moment of inertia of a rigid rectangular body.
- Center of Oscillation Identification: Helps in locating the center of oscillation and demonstrating the reciprocity of the centers of suspension and oscillation.
- Comparative Dynamics: Used alongside steel or aluminum pendulums to study how material density and mass distribution affect angular simple harmonic motion.
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