Optical Ray Tracing Kit
Product Code : SCL-LAO-12090
The Optical Ray Tracing Kit is a modular physics demonstration apparatus used for mapping light propagation paths and verifying the laws of geometric optics. Engineered for physics educators and university science students, this comprehensive kit provides a high-visibility, hands-on platform to observe real-time light refraction and reflection configurations.
Product Description
This premium technical education kit provides an interactive platform for analyzing multi-ray paths on flat surfaces under standard classroom lighting. Constructed with high-density magnetic backing matrices, the system features a solid-state laser source and a variety of precision-molded acrylic optical shapes. The crystal-clear polymer geometry reduces internal absorption while maintaining brilliant ray cohesion.
For institutions upgrading their active inventory of physics lab equipment, this kit delivers exceptional long-term pedagogical utility. It effortlessly replaces theoretical board sketches with actual physical tracking matrices, enabling students to gather quantitative empirical data for laboratory logs. This robust system stands as an essential addition to any high school or college optics program.
Key Features
- Multi-Beam Laser Configuration: Utilizes an integrated diode array capable of emitting up to five parallel light paths simultaneously.
- Shatterproof Acrylic Shapes: Fabricated from high-transmittance optical polymer to ensure total student safety and break resistance.
- Magnetic Mounting System: Features built-in magnetic layers on all refraction blocks for secure vertical orientation on steel presentation boards.
- Permanently Printed Coordinate Grid: Equipped with a non-glare steel tracking sheet marked with a full polar protractor matrix.
- Color-Coded Wave Filtration: Includes interchangeable primary color filters to demonstrate chromatic dispersion trends.
Technical Specifications
|
Specification |
Detail |
|
Light Source Type |
Class II Laser Ray Box (635 nm - 650 nm Red) |
|
Component Material |
High-density optical-grade PMMA polymer |
|
Laser Power Supply |
5V DC via universal mains adapter jack |
|
Board Material |
Matte-finished powder-coated ferrous steel |
|
Board Dimensions |
400 mm x 300 mm x 10 mm |
|
Regulatory Standards |
CE Certified, ISO 9001:2015 Manufacturing Framework |
What's Included in the Kit
- 1 x Five-beam diode laser ray box light source
- 1 x Magnetic tracking board with pre-printed polar grid
- 1 x Semicircular acrylic refraction block element
- 1 x Rectangular geometric prism shape
- 1 x Double convex lens component
- 1 x Double concave lens component
- 1 x 5V DC power adapter module
- 1 x Hard-shell storage case with fitted foam slots
Applications / Uses
- Visualizing incoming and emergent light ray profiles to confirm Snell's law parameters:
- Determining focal distances of spherical segments by tracking multi-ray convergence to satisfy the thin lens equation:
- Measuring the internal critical angle boundary threshold to witness total internal reflection loops.
- Expanding structural light experiments when deployed as part of advanced modular optics experiment kits.
How to Use the Optical Ray Tracing Kit
- Place the magnetic steel tracking sheet flatly on a level physics bench or mount it vertically to a structural frame.
- Set the multi-beam laser ray box at one side border of the pre-printed polar grid.
- Attach the 5V DC power adapter to the ray box jack and turn on the toggle selector switches.
- Select the desired single, triple, or five-beam configuration for your tracking profile.
- Position an acrylic element, such as the rectangular or semicircular refraction blocks, directly inside the laser path.
- Map out the entrance, internal refraction line, and final emergent ray tracks using a fine dry-erase marker.
Safety Note: Always avoid direct skin or eye contact with the open laser output windows to prevent localized ocular strain or permanent retinal injury.
Care & Maintenance
- Cleaning: Clean the polished polymer shapes exclusively with a lint-free microfiber cloth and water; do not apply harsh ammonia or acetone solvents.
- Storage: Keep all elements organized inside the hard-shell case to preserve the precise alignment of the optical edges.
- Handling: Unplug the DC electrical transformer adapter from the mains outlet once your class demonstration concludes to safeguard internal circuits.
Why Choose Science Lab Supplies
Science Lab Supplies is an established manufacturer and premier global exporter of robust laboratory instruments and classroom experiment systems. Drawing on decades of technical production experience, we configure specialized educational equipment built to withstand the rigorous demands of daily academic use. Our operational facilities enforce strict quality assurance procedures to guarantee true geometric alignment across all product lines. With our advanced international logistics channels, we efficiently manage safe bulk deliveries to universities and school boards worldwide.
Frequently Asked Questions
Can this ray tracing kit be used in a standard lit classroom?
Yes, the kit features a high-lumen Class II diode ray box that projects crisp, bright red lines easily seen under typical institutional room lighting.
Are the clear lenses breakable if dropped by students?
No, the optical elements are manufactured from solid, high-transmittance PMMA acrylic instead of glass, making them entirely shatterproof and student-safe.
Can you write directly onto the tracking board surface?
Yes, the magnetic steel board is finished with a specialized white matte enamel coating that accepts standard dry-erase markers and wipes clean with a cloth.
What is the spatial distance between the parallel beams?
The integrated internal collimating mirrors inside the ray box project parallel lines with a precise, fixed spatial separation of 15 mm.
Does the kit require separate batteries to run?
No, the system operates battery-free via an included 5V DC mains power adapter to ensure constant, non-flickering light production.
Explore our online inventory to locate matching choices for your school's optical didactic models checklist, or get in touch with our export sales desk today to request a custom volume quote.
