This complete system includes the PASCO Diffraction Scanner and combines a position sensor with a light sensor for scanning diffraction patterns.
- 1x Red Diode Laser
- 1x Wireless Diffraction Scanner
- 1x Diffraction Slits
- 1x Dynamics Track Optics Carriages (Set of 4)
See the Buying Guide for this item's required, recommended, and additional accessories.
Product Summary
If you already have a PASCO Optics Track, or a PASCO Dynamics Track, the Wireless Diffraction System contains all the equipment you need to perform labs and lecture demonstrations on Interference and Diffraction. This complete system includes the PASCO Diffraction Scanner and combines a position sensor with a light sensor for scanning diffraction patterns. An included aperture setting allows for the adjustment of both width-measurement resolution and light attenuation. A hand crank allows for smooth scanning of diffraction patterns. Because of the wireless design, smooth scans are achieved effortlessly!
This system enables students to scan many diffraction and interference patterns during one lab period. They can study the differences caused by changing the slit width, slit separation, and number of slits. And, by comparing patterns created by a Red Diode Laser to those of a Green Diode Laser, they can study the difference caused by a change in wavelength.
Easily Create Textbook Diffraction Patterns!
A sensor-based diffraction system allows you or your students to create the same types of diffraction patterns that are presented in student physics textbooks. Older methods typically rely on projecting diffraction patterns on to a wall, and measuring the distances between peaks. The human eye can only perceive the diffraction pattern maximums, but a light sensor can measure everything in between! This allows you to create diffraction pattern graphs just like the textbook!
Easy Laser Alignment
The laser beam can be aimed through the diffraction slits using two adjustment screws. Once the beam is aligned, either the laser or the slits can be removed from the optics bench and returned to the bench without re-aligning the beam.
Change Slits in the dark without re-aligning everything.
The slit wheels eliminate the frustration of trying to change the slits in a darkened room. Simply rotate to the next positive click to lock a different slit into position. The alignment of the disk only has to be done once.
Easy Setup and Control
The all-in-one design of the Wireless Diffraction Scanner makes setup simple and fast! Quickly adjust light level with the included aperture dial to achieve perfect diffraction pattern scans.
What's Included
Data Collection Software
This product requires PASCO software for data collection and analysis. We recommend the following option(s). For more information on which is right for your classroom, see our Software Comparison: SPARKvue vs. Capstone »
Buying Guide
| Recommended Accessories | P/N | Price |
|---|---|---|
| Green Diode Laser | OS-8458B | -- |
Product Guides & Articles
Optics System Guide
Our expandable optics system provides everything you need to perform high-quality investigations in any physics lab. Introduce students to the fundamentals of optics with our comprehensive Basic Optics System; then build on the basics with a variety of optics accessories that support detailed studies of color, interference and diffraction, polarization, and more.
AP Physics 2 Lab Manual Overview
Authored by physics educators, the Advanced Physics 2 Lab Manual includes sixteen guided inquiry labs that cover AP Physics 2 topics such as fluid dynamics, optics, interference and diffraction, magnetic fields, electricity, RC Circuits, and Planck’s Constant.
Experiment Library
Perform the following experiments and more with the Wireless Diffraction System.
Visit PASCO's Experiment Library to view more activities.
Diffraction from a Single Slit
The purpose of this experiment is to examine the diffraction pattern formed by laser light passing through a single slit and verify that the positions of the minima in the diffraction pattern match the positions predicted by theory.
Interference from a Double Slit
The purpose of this experiment is to examine the diffraction and interference patterns formed by laser light passing through two slits and verify that the positions of the maxima in the interference pattern match the positions...
Interference from Multiple Slits
The purpose of this experiment is to examine the diffraction and interference pattern formed by laser light passing through multiple slits, observing how the number of slits is related to the maxima intensity and peak width.
Interference of Different Wavelengths
The purpose of this experiment is to examine the diffraction and interference patterns formed by laser light of two different wavelengths passing through two slits. The wavelength of each laser beam will be determined using the...
Support Documents
| Manuals | ||
|---|---|---|
| Basic Optics Green Diode Laser Manual | English - 203.76 KB | |
| Basic Optics Red Diode Laser Manual | English - 314.81 KB | |
| Diffraction Slits Manual | English - 478.12 KB | |
| Dynamics Track Optics Carriage Manual | English - 224.25 KB | |
| Wireless Diffraction Scanner Manual | English - 331.71 KB | |
| Safety Sheets | ||
| Lithium Battery Safety Data Sheet | English - 593.55 KB | |
| Knowledge Base | ||
| How do I troubleshoot connecting a wireless sensor? | Aug 22nd, 2022 | |
| Using Wireless Diffraction Apparatus with Dynamics Tracks | Apr 14th, 2022 | |
