Description
The GM Counter Experimental Setup is a precision nuclear physics laboratory instrument designed to detect and measure ionizing radiation using a Geiger–Müller tube. This setup enables students to study the fundamental properties of nuclear radiation, including background radiation, counting characteristics, dead time, and absorption behavior of alpha, beta, and gamma radiations.
Ideal for physics laboratories, engineering colleges, universities, and nuclear physics training centers.
✅ Key Features
☢ Radiation Detection & Measurement
Detection of ionizing radiations using a sensitive GM tube
Suitable for alpha, beta, and gamma radiation studies (source dependent)
Clear indication of radiation counts for experimental analysis
🔋 High-Voltage GM Tube Supply
Built-in, stabilized high-voltage power supply for GM tube operation
Smooth and adjustable voltage control
Ensures consistent and reliable counting performance
📊 Digital / Analog Counting System
Accurate radiation count display (model dependent)
Enables measurement of count rate (counts per second/minute)
Facilitates plotting of characteristic curves
📈 GM Counter Characteristics Study
Study of plateau region of GM tube
Determination of operating voltage range
Understanding dead time and recovery characteristics
🧱 Educational Trainer Design
Front panel with printed circuit diagram
Clearly labeled controls, switches, and test points
Compact, rugged enclosure suitable for student use
🛡 Safety & Reliability
Shielded GM tube mounting
Student-safe operating design
High-quality components ensure long service life
📘 Typical Applications
Detection and measurement of nuclear radiation
Study of background radiation
GM tube characteristics experiment
Absorption and shielding studies
Nuclear and modern physics practicals
💡 Why Choose This Apparatus?
Accurate and reliable radiation detection
Essential experiment in nuclear physics laboratories
Easy-to-use design for students
Durable construction for long-term academic use
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