CORIOLLIS COMPONENT OF ACCELERATION APPARATUS

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CORIOLLIS COMPONENT OF ACCELERATION APPARATUS

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CORIOLLIS COMPONENT OF ACCELERATION APPARATUS Specification

Frequency
50 Hz

Mounting Type
Bench-top

Temperature
Room temperature (15C to 35C)

Measuring Range
Experimental, depends on setup

Application
Engineering Testing Equipment

Max Height
Approx. 600 mm

Hardness
Mild Steel powder coated

Display Type
Analog/Digital (as applicable)

Humidity
Up to 80% RH

Resolution
0.01 unit (depends on scale used)

Number of Specimens
Single specimen

Power Supply
230 V AC, 50 Hz

Interface Type
Manual

Product Type
CORIOLLIS COMPONENT OF ACCELERATION APPARATUS

Test Range
As per experimental setup

Accuracy
1%

Automation Grade
Manual

Response Time
Instantaneous (mechanical response)

Specimen Size
Variable, as per need

Features
Transparent water tank, smooth rotation, precise measurement, stable base, includes instruction manual

Usage
Engineering Testing Equipment

Operating Voltage
230 V AC

Capacity
Apparatus to hold 1-2 liter water for testing

Machine Weight
Approx. 50 kg

Test Speed
Variable (0-50 RPM)

Test Stroke
Variable as per experiment

Control Mode
Manual Control

CORIOLLIS COMPONENT OF ACCELERATION APPARATUS Trade Information

Minimum Order Quantity
1 Piece

Payment Terms
Cash on Delivery (COD), Cash Advance (CA), Cheque, Telegraphic Transfer (T/T), Letter of Credit (L/C)

Packaging Details
Carton Box, Export Quality also Available

Main Domestic Market
All India

Certifications
ISO 9001, 14001, CE

About CORIOLLIS COMPONENT OF ACCELERATION APPARATUS

Specification:

CORIOLLIS COMPONENT OF ACCELERATION APPARATUS

We are offering a wide range ofCoriolis Component Acceleration.

This entire set up is designed tostudy variouscoriollis components of a slider crank mechanism.

In this process the continuous streamof water which is flowing through a steady rotating pair of tubes replacesmechanical slider system.

The tubes of the system can be easilyrotated in various speeds with the usage of a swinging field motor which alsoserves a dynamometer. There is a Perspex window located on the top of the tank.

This window assures complete clearview of the process. It also prevents the splashing of water over the side ofthe tank.

The in-built dynamometer continuouslymeasures the torque which is applied to the various rotating tubes. This entireequipment is self-contained.

The re-circulating of the water isassisted with a own speed control unit and water circulating pump which isseparate.

Experimentation

To determine Coriolis Component ofAcceleration at various speeds of rotation and water flow rates

Utilities Required

Electricity

0.5 kW, 220 V, Single Phase

Drain

Water Supply

Technical Details:

Swinging field type, variable speed

Pump, FHP

The whole set-up is well designed andarranged in a good quality painted structure

Fabricated out of stainless steel

Rotating arms

9mm/6mm orifice diameter, length 300mm

Rotameter, Electric motor, Main tank

Control Panel comprises of:

Speed control unit

Standard make on/Off switch, mainsindicator

RPM indicator with proximity sensor

RPM measurement

Robust Construction and Safety

Built with quality mild steel and transparent acrylic, this apparatus provides visibility into the experiment while ensuring durability and user safety. Enclosed rotating parts and overload protection features minimize operational risks, making it ideal for demanding laboratory environments.

Precise and Flexible Measurements

With its analog and digital measurement options, a measuring scale for accuracy, and an instant-response mechanism, the system enables precise results. Test parameters like speed and stroke are easily variable to accommodate experimental requirements and specimen differences.

User-Friendly Operation and Applications

Operation is straightforward thanks to a clear instruction manual, manual controls, and simple water circulation. Its bench-top design and stable base allow convenient use in educational and research labs across engineering and technical institutions.

FAQs of CORIOLLIS COMPONENT OF ACCELERATION APPARATUS:

Q: How does the Coriolis Component of Acceleration Apparatus function in laboratory experiments?

A: The apparatus operates by spinning a 300 mm disc, allowing water to flow through, simulating conditions for Coriolis acceleration analysis. The rotation speed and test stroke can be varied manually, permitting users to observe and measure acceleration components and related effects.

Q: What materials and components are used in the construction of this apparatus?

A: The primary materials include powder-coated mild steel for the frame and transparent acrylic for visibility. It incorporates an electric motor, manual controls, water reservoir and pump, measuring scale, and enclosed rotating components for stability and safety during experiments.

Q: When should I use this apparatus in an engineering lab setting?

A: This equipment is ideal for demonstrations, research, and hands-on engineering courses involving fluid dynamics and Coriolis effect studies. It is used whenever theres a need to investigate acceleration in rotating frames, specifically within physics or mechanical engineering curricula.

Q: Where is this apparatus best installed or operated?

A: It is intended for bench-top mounting in laboratory environments. The apparatus is compact and stable, requiring only a standard 230V AC, 50 Hz power source and operating best in room temperatures (1535C) and up to 80% relative humidity.

Q: What are the specific usage guidelines and test process for this equipment?

A: Users should set up the specimen, fill the reservoir with 12 liters of water, and follow the instruction manual. Adjust the disc speed and stroke as needed, record measurements using the provided scale or digital display, and use the collection tank for water management. Safety checks and maintenance should be performed regularly.

Q: What are the primary benefits of using this apparatus for engineering testing?

A: The apparatus offers precise, instantaneous measurement with 1% accuracy, stable operation, and enhanced safety. Its transparent design aids demonstration and learning, while manual controls and variable settings support diverse experimental needs.

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