Successfully reported this slideshow.
We use your LinkedIn profile and activity data to personalize ads and to show you more relevant ads. You can change your ad preferences anytime.

Physics Investigatory Project on Low Resistance Path Using a Diode.

Are you a class 12 student looking for high quality Physics Investigatory Projects for your CBSE/ICSE assessments?
Do you want to achieve high grades in your physics investigatory project, gain technical skills in electronics and develop a genuine interest in physics and engineering?
Now you can with CoolJunk’s new and amazingly easy to use, innovative DIY (do-it-yourself) kit for electronics and electrical projects that are fully compliant with the CBSE/ICSE physics project curriculum requirements.
Visit our website:
Using CoolJunk KIT-1 students can set up their personal lab at home, learn hands on electronics and can perform fun-to-do experiments sitting at home.
For more information, visit our website:

  • Login to see the comments

Physics Investigatory Project on Low Resistance Path Using a Diode.

  1. 1. Part of Made in India, Design Innovation Workshop,2015 A  Fresh  New  Experience  in   Project-­‐Making  &  Learning!
  3. 3. Do  you  know  that  the  current  flowing  in  a  circuit  is   selecAve  in  nature?  If  there  are  two  paths  for  a   current,  it  will  choose  the  one  with  a  lower   resistance.  Using  this  circuit,  you  will  analyze  how   it  actually  happens. In  this  project,  you  will  need  a  breadboard,  a   diode,  a  resistor,  an  LED  and  a  few  connecAng   wires.  The  connecAons  are  made  such  that  the   resistor  is  connected  to  the  parallel  combinaAon  of   the  LED  and  the  diode.  Upon  the  compleAon  of  the   circuit,  the  LED  starts  glowing.  In  this  case,  the  LED   is  forward  biased  and  the  diode  is  reverse  biased.   However,  if  the  connecAons  are  reversed,  the  LED   turns  OFF.  In  this  case,  both  the  LED  and  the  diode   are  forward  biased  and  sAll  the  LED  does  not  glow.   The  reasoning  of  the  phenomena  is  inferred  by   doing  the  currents’  path  analysis  and  analyzing  the   threshold  voltages  at  which  the  LED  and  the  diode   become  forward  biased.
  4. 4. Have  a  look  at  what  we  provide  in  our  Project  Kit! CoolJunk   is   India's   fastest  growing  DIY  (do-­‐it-­‐yourself)   kits   company   focused   on   project-­‐based   learning   in   science,  engineering  and   technology.  Having   20,000   users   in   India,  US,   Singapore,   Middle   East   and   New   Zealand,  the  CoolJunk  kits  are  known  for  quality,  innovaAon  and  high  producAon  value.  CoolJunk  has  been   featured   in   naAonal   and   internaAonal   journals   including   Wallstreet,   Yourstory,   Hindu   Business   Line,   NextBigWhat  and  was  tagged  as  the  coolest  Indian  start-­‐up  in  IAN  Bootcamp-­‐2011.   For  more  projects  visit  our  website:  CoolJunk   All  tools  and  components   in  one  box. Step  by  step  visual   instrucAons Detailed  experiment   theory CoolJunkCoolJunkCoolJunk Follow  us  on: CoolJunk