| Alternate Current Electrostatic Apparatus | [392] |
| Alternating Current Generators for High Frequency | [152], [374], [224] |
| Alternating Motors and Transformers | [7] |
| American Institute Electrical Engineers Lecture | [145] |
| Anthony, W. A., Tests of Tesla Motors | [8] |
| Apparatus for Producing High Vacua | [276] |
| Arc Lighting, Tesla Direct, System | [451] |
| Auxiliary Brush Regulation | [438] |
| Biography, Tesla | [4] |
| Brush, Anti-Sparking | [432] |
| Brush, Third, Regulation | [438] |
| Brush, Phenomena in High Vacuum | [226] |
| Carborundum Button for Tesla Lamps | [140], [253] |
| Commutator, Anti-Sparking | [432] |
| Combination of Synchronizing and Torque Motor | [95] |
| Condensers with Plates in Oil | [418] |
| Conversion with Disruptive Discharge | [193], [204], [303] |
| Current or Dynamic Electricity Phenomena | [327] |
| Direct Current Arc Lighting | [451] |
| Dischargers, Forms of | [305] |
| Disruptive Discharge Coil | [207], [221] |
| Disruptive Discharge Phenomena | [212] |
| Dynamos, Improved Direct Current | [448] |
| Early Phase Motors | [477] |
| Effects with High Frequency and High Potential Currents | [119] |
| Electrical Congress Lecture, Chicago | [486] |
| Electric Resonance | [340] |
| Electric Discharges in Vacuum Tubes | [396] |
| Electrolytic Registering Meter | [420] |
| Eye, Observations on the | [294] |
| Flames, Electrostatic, Non-Consuming | [166], [272] |
| Forbes Unipolar Generator | [468], [474] |
| Franklin Institute Lecture | [294] |
| Generators, Pyromagnetic | [429] |
| High Potential, High Frequency: |
| Brush Phenomena in High Vacuum | [226] |
| Carborundum Buttons | [140], [253] |
| Disruptive Discharge Phenomena | [212] |
| Flames, Electrostatic, Non-Consuming | [166], [272] |
| Impedance, Novel Phenomena | [194], [338] |
| Lighting Lamps Through Body | [359] |
| Luminous Effects with Gases | [368] |
| "Massage" with Currents | [394] |
| Motor with Single Wire | [234], [330] |
| "No Wire" Motors | [235] |
| Oil Insulation of Induction Coils | [173], [221] |
| Ozone, Production of | [171] |
| Phosphorescence | [367] |
| Physiological Effects | [162], [394] |
| Resonance | [340] |
| Spinning Filament | [168] |
| Streaming Discharges of High Tension Coil | [155], [163] |
| Telegraphy without Wires | [346] |
| Impedance, Novel Phenomena | [194], [338] |
| Improvements in Unipolar Generators | [465] |
| Improved Direct Current Dynamos and Motors | [448] |
| Induction Motors | [92] |
| Institution Electrical Engineers Lecture | [198] |
| Lamps and Motor operated on a Single Wire | [330] |
| Lamps with Single Straight Fiber | [183] |
| Lamps containing only a Gas | [188] |
| Lamps with Refractory Button | [177], [239], [360] |
| Lamps for Simple Phosphorescence | [187], [282], [364] |
| Lecture, Tesla before: |
| American Institute Electrical Engineers | [145] |
| Royal Institution | [124] |
| Institution Electrical Engineers | [198] |
| Franklin Institute and National Electric Light Association | [294] |
| Electrical Congress, Chicago | [486] |
| Lighting Lamps Through the Body | [359] |
| Light Phenomena with High Frequencies | [349] |
| Luminous Effects with Gases at Low-Pressure | [368] |
| "Magnetic Lag" Motor | [67] |
| "Massage" with Currents of High Frequency | [394] |
| Mechanical and Electrical Oscillators | [486] |
| Method of obtaining Direct from Alternating currents | [409] |
| Method of obtaining Difference of Phase by Magnetic Shielding | [71] |
| Motors: |
| With Circuits of Different Resistance | [79] |
| With Closed Conductors | [9] |
| Combination of Synchronizing and Torque | [95] |
| With Condenser in Armature Circuit | [101] |
| With Condenser in one of the Field Circuits | [106] |
| With Coinciding Maxima of Magnetic Effect in Armature and Field | [83] |
| With "Current Lag" Artificially Secured | [58] |
| Early Phase | [477] |
| With Equal Magnetic Energies in Field and Armature | [81] |
| Or Generator, obtaining Desired Speed of | [36] |
| Improved Direct Current | [448] |
| Induction | [92] |
| "Magnetic Lag" | [67] |
| "No Wire" | [235] |
| With Phase Difference in Magnetization of Inner and Outer Parts of Core | [88] |
| Regulator for Rotary Current | [45] |
| Single Circuit, Self-starting Synchronizing | [50] |
| Single Phase | [76] |
| With Single Wire to Generator | [234], [330] |
| Synchronizing | [9] |
| Thermo-Magnetic | [424] |
| Utilizing Continuous Current Generators | [31] |
| National Electric Light Association Lecture | [294] |
| "No Wire" Motor | [235] |
| Observations on the Eye | [294] |
| Oil, Condensers with Plates in | [418] |
| Oil Insulation of Induction Coils | [173], [221] |
| Oscillators, Mechanical and Electrical | [486] |
| Ozone, Production of | [171] |
| Phenomena Produced by Electrostatic Force | [318] |
| Phosphorescence and Sulphide of Zinc | [367] |
| Physiological Effects of High Frequency | [162], [394] |
| Polyphase Systems | [26] |
| Polyphase Transformer | [109] |
| Pyromagnetic Generators | [429] |
| Regulator for Rotary Current Motors | [45] |
| Resonance, Electric, Phenomena of | [340] |
| "Resultant Attraction" | [7] |
| Rotating Field Transformers | [9] |
| Rotating Magnetic Field | [9] |
| Royal Institution Lecture | [124] |
| Scope of Lectures | [119] |
| Single Phase Motor | [76] |
| Single Circuit, Self-Starting Synchronizing Motors | [50] |
| Spinning Filament Effects | [168] |
| Streaming Discharges of High Tension Coil | [155], [163] |
| Synchronizing Motors | [9] |
| Telegraphy without Wires | [346] |
| Transformer with Shield between Primary and Secondary | [113] |
| Thermo-Magnetic Motors | [424] |
| Thomson, J. J., on Vacuum Tubes | [397], [402], [406] |
| Thomson, Sir W., Current Accumulator | [471] |
| Transformers: |
| Alternating | [7] |
| Magnetic Shield | [113] |
| Polyphase | [109] |
| Rotating Field | [9] |
| Tubes: |
| Coated with Yttria, etc. | [187] |
| Coated with Sulphide of Zinc, etc. | [290], [367] |
| Unipolar Generators | [465] |
| Unipolar Generator, Forbes | [468], [474] |
| Yttria, Coated Tubes | [187] |
| Zinc, Tubes Coated with Sulphide of | [367] |