Difference between revisions of "Main Page/PHYS 3220"
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<tr><td width=550>'''Experiment'''</td><td width=100>'''Location'''</td><td width=150> </td></tr> | <tr><td width=550>'''Experiment'''</td><td width=100>'''Location'''</td><td width=150> </td></tr> | ||
<tr><td>[[Main Page/PHYS 3220/Cavendish|Measurement of the Gravitation Constant G: The Cavendish Experiment]]</td><td> 126 PSE </td><td></td></tr> | <tr><td>[[Main Page/PHYS 3220/Cavendish|Measurement of the Gravitation Constant G: The Cavendish Experiment]]</td><td> 126 PSE </td><td></td></tr> | ||
− | <tr><td>[[Main Page/PHYS 3220/Digital Oscilloscope|Digital Storage Oscilloscope]] </td><td> | + | <tr><td>[[Main Page/PHYS 3220/Digital Oscilloscope|Digital Storage Oscilloscope]] </td><td> 150 PSE </td><td></td></tr> |
− | <tr><td> [[Main Page/PHYS 3220/Thermionic|Thermionic Emission]]</td><td> | + | <tr><td> [[Main Page/PHYS 3220/Thermionic|Thermionic Emission]]</td><td> 150 PSE </td><td></td></tr> |
<tr><td>[[Main Page/PHYS 3220/new Excitation Potentials|The Franck-Hertz Experiment - Excitation Potentials of Mercury and Neon]]</td><td> 126 PSE </td><td></td></tr> | <tr><td>[[Main Page/PHYS 3220/new Excitation Potentials|The Franck-Hertz Experiment - Excitation Potentials of Mercury and Neon]]</td><td> 126 PSE </td><td></td></tr> | ||
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<tr><td>[[Main Page/PHYS 3220/Millikan|Determination of the Electric Charge Unit ''e'' : The Millikan Oil Drop Experiment]] </td><td> 111 PSE </td><td></td></tr> | <tr><td>[[Main Page/PHYS 3220/Millikan|Determination of the Electric Charge Unit ''e'' : The Millikan Oil Drop Experiment]] </td><td> 111 PSE </td><td></td></tr> | ||
− | + | <tr><td>[[Main Page/PHYS 3220/Viscosity|Viscosity]] </td><td> 150 PSE </td><td></td></tr> | |
+ | <tr><td>[[Main Page/PHYS 3220/Semiconductors I|Semiconductors I]] </td><td> 150 PSE </td><td></td></tr> | ||
</table> | </table> | ||
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<li> [[Main Page/PHYS 3220/Hydrogen Spectrum|The Visible Spectrum of Hydrogen]]</li> | <li> [[Main Page/PHYS 3220/Hydrogen Spectrum|The Visible Spectrum of Hydrogen]]</li> | ||
<li> [[Main Page/PHYS 3220/Interferometer|The Michelson Interferometer ]] </li> | <li> [[Main Page/PHYS 3220/Interferometer|The Michelson Interferometer ]] </li> | ||
− | |||
<li> [[Main Page/PHYS 3220/Excitation Potentials|The Excitation Potentials of Mercury: The Franck-Hertz Experiment]]</li> | <li> [[Main Page/PHYS 3220/Excitation Potentials|The Excitation Potentials of Mercury: The Franck-Hertz Experiment]]</li> | ||
Latest revision as of 10:46, 26 May 2022
PHYS 3220 3.0 Experiments in Modern Physics
A selection of experiments in fluid mechanics, electromagnetism, optics, and atomic, nuclear, and particle physics. Analysis of the data and detailed write-ups are required. One lecture hour which is devoted to techniques of data analysis and three laboratory hours per week.
Laboratory Manual
IMPORTANT NOTE: Fall 2020 PHYS 3220 Lab Scheduling procedures will be announced via the Moodle eClass course website http://eclass.yorku.ca/ prior to the beginning of term.
Experiment | Location | |
Measurement of the Gravitation Constant G: The Cavendish Experiment | 126 PSE | |
Digital Storage Oscilloscope | 150 PSE | |
Thermionic Emission | 150 PSE | |
The Franck-Hertz Experiment - Excitation Potentials of Mercury and Neon | 126 PSE | |
A Measurement of the Velocity of Light: The Foucault-Michelson Experiment | 209 PSE | |
Radioactive Decays | 111 PSE | |
Rutherford Scattering I | 111 PSE | |
Determination of the Electric Charge Unit e : The Millikan Oil Drop Experiment | 111 PSE | |
Viscosity | 150 PSE | |
Semiconductors I | 150 PSE |