The Precision Photoelectric Effect uses three color filters to calculate Planck's Constant.
- Three Filters of Wavelength Included
- Students Use the Graph's Slope to Calculate Planck's Constant
- Apparatus Shows that Photoelectrons' Energy Relies on Wavelengths of Incoming Radiation
The Photoelectric Effect demonstrates that the energy of a photoelectron depends on the wavelength of the incoming radiation and not on its intensity. As monochromatic radiation irradiates the photocathode, a potential is applied opposing the energy of the emitted electrons. The voltage required to stop the current flow is proportional to the energy of the photoelectrons.
Plotting this voltage as a function of the reciprocal of the wavelength gives a straight line plot. Students can use the graph's slope to calculate Planck's Constant.
Ordering information: This kit includes three filters of wavelength: 470 nm, 580 nm, and 630 nm. A digital voltmeter or data-logging equipment to measure the stopping potential is required.
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