Thermal Conductivity of Copper by Angstrom Method

100 INR/Piece

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Product Details:

Usage Educational and research purposes for thermal conductivity tests
Voltage Standard operating voltage (not specified in image)
Power Mains powered with cable connectors
Display Digital display for temperature readings
Product Type Thermal conductivity measurement apparatus
Material Copper for thermal conductivity test
Design Compact and organized setup for thermal conductivity measurements
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Thermal Conductivity of Copper by Angstrom Method Price And Quantity

Minimum Order Quantity 1 Piece
Price 100 INR/Piece

Thermal Conductivity of Copper by Angstrom Method Product Specifications

Display Digital display for temperature readings
Design Compact and organized setup for thermal conductivity measurements
Power Source Electric supply
Power Mains powered with cable connectors
Material Copper for thermal conductivity test
Weight Not specified in image
Dimension (L*W*H) Not specified in image
Warranty Not specified in image
Usage Educational and research purposes for thermal conductivity tests
Accuracy High precision temperature measurement using Angstrom method
Product Type Thermal conductivity measurement apparatus
Voltage Standard operating voltage (not specified in image)
Detector Temperature probes with digital display

Product Description

ThermalConductivity of Copper by Angstroms Method

APPARATUSUSED:

1. Angstromsexperimental set-up consists of 0 - 50V and 0 - 4 amp. A.C. supplyfitted with voltmeter and ammeter with built-in signal generator which providethe square wave signal to the power supply with a time period of 38 sec.

2. SampleRod: Copper rod 50 cm long and 2.5 cm dia fitted inside the wooden box toprotect from the energy loss.

3. Heatercoil: Fitted on copper rod.

4. Thermometer(0-200 oC) - Set of 03

5. Stopclock and connecting leads.

High Precision Angstrom Method

Utilizing the Angstrom method, this apparatus delivers accurate thermal conductivity measurements for copper. The method uses finely tuned temperature probes to detect subtle changes, providing highly reliable data suitable for advanced study and scientific investigation.

User-Friendly Compact Design

Engineered for convenience, the device sports a compact, organized structure. This facilitates easy setup, integration, and portability, making it an excellent choice for teaching environments and diverse research settings requiring repeatable and efficient thermal tests.

Digital Temperature Display

Temperature changes are captured by advanced detector probes and shown on a digital display. This real-time visualization enables users to monitor conductivity results instantly and record data for analysis.

FAQs of Thermal Conductivity of Copper by Angstrom Method:

Q: How does the Angstrom method measure the thermal conductivity of copper?

A: The Angstrom method involves applying a periodic thermal wave to one end of the copper sample and monitoring temperature changes along its length using precision probes. This enables calculation of coppers thermal conductivity based on how heat propagates through the material.

Q: What are the main benefits of using this compact thermal conductivity setup?

A: Its organized and compact design ensures easy installation and portability, while high-precision sensors and digital readout enhance accuracy and efficiency in both educational and research thermal studies.

Q: When is this copper thermal conductivity apparatus typically used?

A: It is commonly employed during physics and materials science experiments in schools, universities, laboratories, or research institutions to study heat transfer properties of copper.

Q: Where can this thermal conductivity test equipment be sourced?

A: This equipment is available through reliable exporters, manufacturers, suppliers, and traders in India, specializing in laboratory and scientific apparatus.

Q: What is the process involved in performing a thermal conductivity test using this apparatus?

A: The process includes connecting the device to mains power, setting up the copper sample, initiating the thermal wave, and observing the temperature changes on the digital display to analyze heat transfer characteristics.

Q: How are temperature readings displayed during the test?

A: Temperature shifts along the copper rod are detected by integrated probes and instantly shown on the digital display, allowing continuous monitoring and data recording throughout the experiment.

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