- Farm & Garden
- Pumps & Motors
- Food Processing
- Workshop, DIY & MRO
- Lab & Measuring Tools
Brand: Reliant Lab
Reliant lab Sonometer Apparatus Teak Wood (Brass Fitting)
SKU: TB-RE-67339
Estimated Delivery By: Apr 16 - Apr 18 
MRP : ₹3999 ₹2799
30% 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
₹2799 (Including GST)
MRP : ₹3999
30% OFF!
Get Extra ₹42 OFF on Prepaid Orders
QTY :
-
1
+
Short Description
Reliant lab Sonometer Apparatus Teak Wood
Brass Fitting
Country of origin: India
Specifications
- Brand: Reliant Lab
- Product Material : Wood
- Fitting Type : Brass Fitting
- Length : 1 Meter
Description
This version of the Sonometer is constructed from high-density, seasoned Teak Wood, which provides superior acoustic resonance and structural longevity compared to standard softwoods. The hollow resonance box is designed to amplify the vibrations of a stretched string, making the nodes and antinodes clearly audible. It features a polished surface with an inlaid meter scale. One meter of teak wood and well polished brass fitting with meter scale graduated both sides in cm. It is provided with wire of three different materials, sliding wedges and hook etc. but without weights.
Features
:- Premium Teak Wood Construction: Built from seasoned teak to prevent warping and provide a rich, clear resonant frequency for acoustic experiments.
- Precision Brass Pulley: Equipped with a low friction brass pulley that ensures the applied weights translate accurately into string tension without snagging.
- Inlaid Meter Scale: Features a high contrast, permanent scale (0–100 cm) embedded into the wood for precise measurement of the vibrating string length.
- Advanced Brass Fittings: Includes brass tuning keys and bridges that provide better grip and stability for the wire compared to aluminum or plastic alternatives.
Applications
:- Frequency Determination: Calculating the exact frequency of an unknown tuning fork using the principle of resonance.
- Linear Mass Density Studies: Comparing different wire materials to observe how mass per unit length affects pitch.
- Acoustic Engineering Basics: Demonstrating the concept of forced vibrations and sympathetic resonance in a hollow chamber.
- Harmonic and Overtone Analysis: Visualizing standing wave patterns and identifying the fundamental frequency versus higher harmonics.
Questions & Answers (0)
Select attribute
