Description
Specifications Table
Product Material – Borosilicate glass, stainless steel, and optical-grade components
Grade – Research-grade precision
Application – Hydrogen spectrum analysis, atomic physics experiments
Product Overview
The Rydberg Constant Measurement (Complete Setup) is a meticulously designed kit for precise determination of the Rydberg constant through hydrogen spectrum analysis. This research-grade setup includes all essential components for accurate spectroscopic measurements, featuring high-quality borosilicate glass optics and stainless steel structural elements. The kit is engineered to minimize experimental errors, with optical-grade components ensuring superior light transmission and spectral resolution. The complete assembly includes a hydrogen discharge tube with optimized gas pressure for clear spectral line emission, a precision diffraction grating for wavelength separation, and a goniometer for angular measurements. The setup’s modular design allows for easy calibration and alignment, while the included digital spectrometer interface enables real-time data acquisition. Each component undergoes rigorous quality control to meet exacting laboratory standards, ensuring reliable and reproducible results. The system’s robust construction provides long-term durability, making it suitable for frequent use in educational and research environments.
FAQs
1. What components are included in this Rydberg constant measurement setup?
The complete setup includes a hydrogen discharge tube, precision diffraction grating, goniometer with vernier scale, digital spectrometer interface, power supply unit, and all necessary optical mounts and alignment tools.
2. How accurate are the measurements obtained with this kit?
The system is designed to achieve measurement accuracy within ±0.05% of the accepted Rydberg constant value when properly calibrated and used under controlled laboratory conditions.
3. Can this setup be used with other gases besides hydrogen?
While optimized for hydrogen spectrum analysis, the basic components can be adapted for other gaseous elements with appropriate modifications to the discharge tube and spectral calibration.
4. What power requirements does this setup have?
The complete system operates on standard 220-240V AC power supply, with the hydrogen discharge tube requiring approximately 2-5kV at low current for optimal spectral emission.
5. How should the diffraction grating be cleaned and maintained?
The diffraction grating should be cleaned using compressed air to remove dust particles, with occasional gentle wiping using lens cleaning tissue moistened with isopropyl alcohol, taking care not to scratch the optical surface.
