Welcome to our websites!
section02_bg(1)
head(1)

China Wholesale Kinetic Friction Coefficient Manufacturers – LMEC-1 Young’s Modulus Apparatus – Hall Sensor Method – Labor

Short Description:


Product Detail

Product Tags

Related Video

Feedback (2)

Every member from our high efficiency sales team values customers' needs and business communication for Spring Constant, Semiconductor Refrigeration, Electron Spin Resonance, If possible, be sure to send your needs with a detailed list including the style/item and quantity you require. We will then deliver our greatest price ranges to you.
China Wholesale Kinetic Friction Coefficient Manufacturers – LMEC-1 Young’s Modulus Apparatus – Hall Sensor Method – Labor Detail:

The instrument for measuring Young’s modulus with Hall position sensor is based on the measurement of Young’s modulus of solid materials by bending method, and is equipped with Hall position sensor. Through the calibration of the linear relationship between the output voltage and the displacement of hall position sensor and the measurement of micro displacement, it is beneficial to connect with the scientific research and production practice, so that students can understand and master the new non electrical electrical measurement method of micro displacement. This instrument improves the classical experimental device and method, not only retains the original experimental teaching content, but also increases the understanding of the structure, principle, characteristics and use method of hall position sensor, applies the advanced scientific and technological achievements to the teaching experiment, and expands the students’ knowledge, so this instrument is also an example of classical experimental teaching modernization.

Experiments

1. Understand the principle, structure, properties and applications of a Hall displacement sensor

2. Measure the Young’s modulus of a copper sample

3. Calibrate a Hall displacement sensor

4. Measure the Young’s modulus of a malleable iron sample

The instruction manual contains experimental configurations, principles, step-by-step instructions, and examples of experiment results. Please click Experimental Contents to find more information about this apparatus.

Main Specifications

Description Specifications
Reading Microscope Range: 8 mm; resolution: 0.01 mm; magnification: 20X
Weights 10.0 g and 20.0 g
Digital Multimeter 3-1/2 digit; range: 0 ~ 2000 mV
Samples Copper and malleable cast-iron sheets
Relative Uncertainty of Measurement < 3%

 

Part List

 

Description Qty
Main Unit 1
Stand Rack 1
Reading Microscope 1
Hall Sensor 1
Cable 1
Weights 8 pcs (10 g), 2 pcs (20 g)
Manual 1

Product detail pictures:

China Wholesale Kinetic Friction Coefficient Manufacturers –  LMEC-1 Young’s Modulus Apparatus – Hall Sensor Method – Labor detail pictures


Related Product Guide:

We love an incredibly fantastic standing amid our consumers for our superb item high quality, aggressive rate and also the finest assistance for China Wholesale Kinetic Friction Coefficient Manufacturers – LMEC-1 Young’s Modulus Apparatus – Hall Sensor Method – Labor , The product will supply to all over the world, such as: Roman, Nepal, London, They are sturdy modeling and promoting effectively all over the world. Never ever disappearing major functions within a quick time, it's a have to in your case of fantastic good quality. Guided by the principle of "Prudence, Efficiency, Union and Innovation. the corporation. ake an excellent efforts to expand its international trade, raise its organization. rofit and raise its export scale. We have been confident that we've been going to have a bright prospect and to be distributed all over the world in the years to come.
  • It is a very good, very rare business partners, looking forward to the next more perfect cooperation!
    5 Stars By Athena from South Africa - 2018.05.13 17:00
    The customer service staff is very patient and has a positive and progressive attitude to our interest, so that we can have a comprehensive understanding of the product and finally we reached an agreement, thanks!
    5 Stars By John biddlestone from Roman - 2018.07.12 12:19
    Write your message here and send it to us