{"id":2188,"date":"2014-08-28T14:16:50","date_gmt":"2014-08-28T18:16:50","guid":{"rendered":"https:\/\/itp.nyu.edu\/physicalcomputing\/wp-content\/uploads\/LabToneInstrument_bb.png"},"modified":"2019-08-02T08:13:43","modified_gmt":"2019-08-02T12:13:43","slug":"labtoneinstrument_bb","status":"inherit","type":"attachment","link":"https:\/\/itp.nyu.edu\/physcomp\/labs\/labs-arduino-digital-and-analog\/tone-output-using-an-arduino\/labtoneinstrument_bb\/","title":{"rendered":"LabToneInstrument_bb"},"author":2,"featured_media":0,"comment_status":"open","ping_status":"open","template":"","meta":[],"class_list":["post-2188","attachment","type-attachment","status-inherit","hentry"],"description":{"rendered":"

\"Breadboard<\/a><\/p>\n"},"caption":{"rendered":"

Breadboard view of an Arduino connected to three force sensing resistors (FSR) and a speaker. Each of the three FSRs have one of their respective legs connected to +5 volts. Each of the other legs connect to one leg of a 10-kilohm resistor and simultaneously connect to one of the Arduino’s analog input pins. In this case the pin connections are A0, A1, and A2. Each of the respective 10-kilohm resistors then connect to ground. The red positive wire of the speaker is connected to digital pin 8 of the Arduino. The black ground wire of the speaker is connected to one leg of a 100 ohm resistor. The other leg of the 100 ohm resistor then connects to ground.<\/p>\n"},"alt_text":"Breadboard view of an Arduino connected to three force sensing resistors (FSR) and a speaker. Each of the three FSRs have one of their respective legs connected to +5 volts. Each of the other legs connect to one leg of a 10-kilohm resistor and simultaneously connect to one of the Arduino's analog input pins. In this case the pin connections are A0, A1, and A2. Each of the respective 10-kilohm resistors then connect to ground. The red positive wire of the speaker is connected to digital pin 8 of the Arduino. The black ground wire of the speaker is connected to one leg of a 100 ohm resistor. The other leg of the 100 ohm resistor then connects to ground.","media_type":"image","mime_type":"image\/png","media_details":{"width":579,"height":482,"file":"LabToneInstrument_bb.png","sizes":{"thumbnail":{"file":"LabToneInstrument_bb-150x150.png","width":150,"height":150,"mime_type":"image\/png","source_url":"https:\/\/itp.nyu.edu\/physcomp\/wp-content\/uploads\/LabToneInstrument_bb-150x150.png"},"medium":{"file":"LabToneInstrument_bb-300x249.png","width":300,"height":249,"mime_type":"image\/png","source_url":"https:\/\/itp.nyu.edu\/physcomp\/wp-content\/uploads\/LabToneInstrument_bb-300x249.png"},"post-thumbnail":{"file":"LabToneInstrument_bb-579x372.png","width":579,"height":372,"mime_type":"image\/png","source_url":"https:\/\/itp.nyu.edu\/physcomp\/wp-content\/uploads\/LabToneInstrument_bb-579x372.png"},"full":{"file":"LabToneInstrument_bb.png","width":579,"height":482,"mime_type":"image\/png","source_url":"https:\/\/itp.nyu.edu\/physcomp\/wp-content\/uploads\/LabToneInstrument_bb.png"}},"image_meta":{"aperture":0,"credit":"","camera":"","caption":"","created_timestamp":0,"copyright":"","focal_length":0,"iso":0,"shutter_speed":0,"title":""}},"post":225,"source_url":"https:\/\/itp.nyu.edu\/physcomp\/wp-content\/uploads\/LabToneInstrument_bb.png","_links":{"self":[{"href":"https:\/\/itp.nyu.edu\/physcomp\/wp-json\/wp\/v2\/media\/2188"}],"collection":[{"href":"https:\/\/itp.nyu.edu\/physcomp\/wp-json\/wp\/v2\/media"}],"about":[{"href":"https:\/\/itp.nyu.edu\/physcomp\/wp-json\/wp\/v2\/types\/attachment"}],"author":[{"embeddable":true,"href":"https:\/\/itp.nyu.edu\/physcomp\/wp-json\/wp\/v2\/users\/2"}]}}