Bernoullis Theorem Demonstration

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MOQ : 1 Piece

Bernoullis Theorem Demonstration Specification

Accuracy
100 %

Dimension (L*W*H)
650 x 400 x 850 Millimeter (mm)

Material
Stainless steel

Feature
enables to study the Bernoullis theorem through the use of a classical venture tube

Warranty
1 year

Equipment Materials
Stainless steel

Type
Training equipment

Usage
Laboratory

Bernoullis Theorem Demonstration Trade Information

Minimum Order Quantity
1 Piece

Payment Terms
Telegraphic Transfer (T/T), Cheque

Delivery Time
2 Week

Sample Available
Yes

Main Export Market(s)
Asia, Australia, Eastern Europe, Western Europe, Middle East, Central America, North America, South America, Africa

Main Domestic Market
All India

Certifications
AS ISO 9001:2008, ISO 14001:2004 and OHSAS 18001:2007 CO.

About Bernoullis Theorem Demonstration

Bernoullis Theorem Demonstration

Features :

This equipment enables to study the Bernoullis theorem through the use of a classical venture tube Equipped with 6 static tapping points and a pilot tube for the measurement of dynamic pressure along the duct The tapping points and pilot tube are connected with a seven tubes differential pressure gauge The water flow rate is controlled by two valves placed at the inlet & outlet of the Venturi tube

Specifications :

Stainless steel structure 8 tubes pressure gauge.
range: 0 to 500 m.
Diameter of venture tube : 20 mm.
Venturi tube throat diameter : 10 mm.
Up stream taper : 14.
Downstream taper : 21.
Dimension : 650 x 400 x 850 mm.

Training Program :

Demonstration of Bernoullis theorem and of its limitations Direct measurement of the static and dynamic pressure distribution along a Venturi tube Determining the discharge coefficient of the Venturi tube.

Robust Stainless Steel Construction

Built entirely of stainless steel, this Bernoullis Theorem Demonstration ensures corrosion resistance and long-term structural integrity, even in frequent-use laboratory settings. Its solid build supports repeated usage, making it an essential tool for educational institutions and research centers focused on fluid mechanics.

Precise and Convenient Laboratory Usage

With its compact dimensions of 650 x 400 x 850 mm, this equipment offers easy integration into most laboratory benches and environments. The classical venture tube enables accurate and demonstrative experiments to study Bernoullis theorem, enhancing practical learning for students and trainees.

FAQs of Bernoullis Theorem Demonstration:

Q: How does the Bernoullis Theorem Demonstration facilitate the study of fluid mechanics in laboratories?

A: This equipment uses a classical venture tube to visually demonstrate the principles of Bernoullis theorem, allowing users to observe pressure differences and fluid velocities under controlled laboratory conditions.

Q: What are the benefits of using stainless steel material in this demonstration equipment?

A: Stainless steel ensures durability, corrosion resistance, and maintains structural integrity, making the equipment ideal for high-frequency educational use in laboratories.

Q: When can this equipment be used during laboratory coursework or training sessions?

A: The Bernoullis Theorem Demonstration is typically used during instruction or practical training in fluid mechanics, providing hands-on experience to students whenever curriculum requires experimental validation of Bernoullis theorem.

Q: Where is this Bernoullis Theorem Demonstration manufactured and supplied from?

A: The equipment is manufactured, exported, and supplied by a reputable company in India, delivering quality laboratory tools to institutions worldwide.

Q: What is the process for setting up and using this training equipment in the laboratory?

A: Setting up involves placing the unit on a stable laboratory surface, connecting it to relevant fluid sources, and following standard operational procedures outlined in the user manual to conduct precise Bernoullis theorem experiments.

Q: How accurate are the measurements provided by this demonstration apparatus?

A: With 100% measurement accuracy, the equipment reliably reproduces experimental results, ensuring that students and researchers obtain valid data for analysis and learning.

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