written by
Gary Gladding
published by the University of llinois Physics Education Research Group
This interactive physics problem involves two light sources of differing wavelengths beamed at a metal object. Maximum kinetic energy is 1 eV for the first beam and 4 eV for the second. Using this information, the user is asked to find the work function of the metal. This problem is accompanied by a Socratic-dialog "help" sequence designed to encourage critical thinking as users do a guided conceptual analysis before attempting the mathematics. Immediate feedback for both correct and incorrect responses is provided through each step of the problem-solving.
This item is part of a larger collection of interactive problems developed by the Illinois Physics Education Research Group.
ComPADRE is beta testing Citation Styles!
Record Link
<a href="https://www.compadre.org/portal/items/detail.cfm?ID=6472">Gladding, Gary. Illinois PER Interactive Examples: Photoelectric Effect I. Urbana: University of llinois Physics Education Research Group, June 16, 2006.</a>
AIP Format
G. Gladding, (University of llinois Physics Education Research Group, Urbana, 2002), WWW Document, (https://per.physics.illinois.edu/per/IE/ie.pl?phys102/ie/12/pe1).
AJP/PRST-PER
G. Gladding, Illinois PER Interactive Examples: Photoelectric Effect I (University of llinois Physics Education Research Group, Urbana, 2002), <https://per.physics.illinois.edu/per/IE/ie.pl?phys102/ie/12/pe1>.
APA Format
Gladding, G. (2006, June 16). Illinois PER Interactive Examples: Photoelectric Effect I. Retrieved January 14, 2025, from University of llinois Physics Education Research Group: https://per.physics.illinois.edu/per/IE/ie.pl?phys102/ie/12/pe1
Chicago Format
Gladding, Gary. Illinois PER Interactive Examples: Photoelectric Effect I. Urbana: University of llinois Physics Education Research Group, June 16, 2006. https://per.physics.illinois.edu/per/IE/ie.pl?phys102/ie/12/pe1 (accessed 14 January 2025).
MLA Format
Gladding, Gary. Illinois PER Interactive Examples: Photoelectric Effect I. Urbana: University of llinois Physics Education Research Group, 2002. 16 June 2006. 14 Jan. 2025 <https://per.physics.illinois.edu/per/IE/ie.pl?phys102/ie/12/pe1>.
BibTeX Export Format
@misc{
Author = "Gary Gladding",
Title = {Illinois PER Interactive Examples: Photoelectric Effect I},
Publisher = {University of llinois Physics Education Research Group},
Volume = {2025},
Number = {14 January 2025},
Month = {June 16, 2006},
Year = {2002}
}
Refer Export Format
%A Gary Gladding %T Illinois PER Interactive Examples: Photoelectric Effect I %D June 16, 2006 %I University of llinois Physics Education Research Group %C Urbana %U https://per.physics.illinois.edu/per/IE/ie.pl?phys102/ie/12/pe1 %O text/html
EndNote Export Format
%0 Electronic Source %A Gladding, Gary %D June 16, 2006 %T Illinois PER Interactive Examples: Photoelectric Effect I %I University of llinois Physics Education Research Group %V 2025 %N 14 January 2025 %8 June 16, 2006 %9 text/html %U https://per.physics.illinois.edu/per/IE/ie.pl?phys102/ie/12/pe1 Disclaimer: ComPADRE offers citation styles as a guide only. We cannot offer interpretations about citations as this is an automated procedure. Please refer to the style manuals in the Citation Source Information area for clarifications.
Citation Source Information
The AIP Style presented is based on information from the AIP Style Manual. The APA Style presented is based on information from APA Style.org: Electronic References. The Chicago Style presented is based on information from Examples of Chicago-Style Documentation. The MLA Style presented is based on information from the MLA FAQ. This resource is stored in a shared folder. You must login to access shared folders. Illinois PER Interactive Examples: Photoelectric Effect I:
Is Part Of
http://research.physics.uiuc.edu/PER/ie_102.html
This is a link to the full collection of interactive homework problems by the same author. Complete problem sets are available for both algebra-based and calculus-based courses in introductory physics. relation by Caroline Hall
Is Supplemented By
PhET Simulation: Photoelectric Effect
Students can explore and visualize the photoelectric effect in this simulation that allows them to control intensity and wavelength of the light, change voltage accelerating the electrons, and select from a variety of metals. Output graphs accompany the simulation. relation by Caroline HallKnow of another related resource? Login to relate this resource to it. |
SupplementsContributeRelated Materials
Is Part Of
Is Supplemented By
Similar Materials |