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« Prev Comments 1 - 10 of 11 Next »
  • anita.eros
    anita.eros said 1 month Edit Delete

    I really liked your presentation although some parts weren't clear for me. Maybe the reason is I don't like mathematics. You really showed how make people bored. Thank you for it. I will use your tips! :D Anita

  • tahiriqbal
    tahiriqbal said 1 month Edit Delete

    hahaha...way too fucking boring. huh, i can't believe i finally viewed all slides. good idea though, liked it :p

  • satomy
    satomy said 1 month Edit Delete

    Your presentation made me smile. Mathématiques Sans Frontières...

  • charliez
    charliez said 1 month Edit Delete

    excellent boring stuff! hahahaha, you were right, an excellent presentation with very nice ideas, congrats!!

  • hengsuay
    hengsuay said 1 month Edit Delete

    Good idea. Thanks.

  • guest2b41e9
    guest2b41e9 said 1 month Edit Delete

    awesome! i've never laughed more at math that I didn't understand :) - andrea

  • AmitRanjan
    AmitRanjan said 1 month Edit Delete

    amazing stuff.... very intelligent, humorous

    love this...

  • atomplus
    atomplus said 1 month Edit Delete

    WOW..never imagined blah blah could be sooo interesting!!!!.....had I known it before could have paid more attention to the EM theory classes a bit more...lol....

  • rupantor
    rupantor said 1 month Edit Delete

    Thanks ashwan, grahairs, atomplus, andrea, hengsuay, charliez and AmitRanjan for comments and inspiration. :)

  • grahairs
    grahairs said 1 month Edit Delete

    Great stuff.. enjoyed your take on this, and your wit!

  • ashwan
    ashwan said 1 month Edit Delete

    Thanks for making me laugh! I love this presentation! :)

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    An Excellent Boring Presentation

    From rupantor, 1 month ago Add as contact

    This presentation is a witty journey to boredom. In excellent way.

    Holding attention is important in storytelling.
    Storytelling is important in presentation.
    presentation is important in some undergrad project. No matter how boring the topic is. My retrospective.

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    Slideshow Transcript

    1. Slide 1: V 4.0 AN EXCELLENT BORING PRESENTATION FOR 2 REASONS.
    2. Slide 2: AN EXCELLENT BORING PRESENTATION FOR 2 REASONS. I GUESS SO.
    3. Slide 3: BORING BECAUSE #1 too many equations. text. garbage.
    4. Slide 4: EXCELLENT BECAUSE storytelling.
    5. Slide 5: BORING BECAUSE #2 random blah blah. bad storytelling.
    6. Slide 6: GET READY to be bored.
    7. Slide 7: ISHTIAQUE ZICO / BANGLADESH
    8. Slide 8: RIGHT! THAT’S MY NAME ISHTIAQUE ZICO / BANGLADESH
    9. Slide 9: AND MY COUNTRY ISHTIAQUE ZICO / BANGLADESH
    10. Slide 10: MY BIO INDEPENDENT FILMMAKER WRITER. ALSO.
    11. Slide 11: I LOVE IDEAS, EXPERIMENT & LIMITATION twitter.com/iazico
    12. Slide 12: & ENJOY WORKING WITH RUPANTOR MICROCINEMA TEAM
    13. Slide 13: BUT ONCE I STUDIED MATHEMATICS UNDERGRAD. BORING.
    14. Slide 14: I HAD TO MAKE PRESENTATION WITH MATHEMATICS THAT’S WHY BORING
    15. Slide 15: AND THIS PRESENTATION DEALS SCATTERING THEORY ALSO SCARING
    16. Slide 16: SO LET’S EXPLORE INVERSE SCATTERING & SCATTERING BLAH BLAH YOU ARE WARNED.
    17. Slide 17: & WHAT IS SCATTERING deflection of subatomic particles
    18. Slide 18: & WHAT IS subatomic particles
    19. Slide 19: GOOGLE. PLEASE. [search] subatomic particles
    20. Slide 20: ALWAYS. I would do the same thing.
    21. Slide 21: SCATTERING. EXAMPLE. Wave scattering Sunlight scattered by rain drops
    22. Slide 22: SCATTERING. EXAMPLE. Particle scattering The motion of billiard balls
    23. Slide 23: SCATTERING. EXAMPLE. Particle scattering The motion of billiard balls
    24. Slide 24: SCATTERING. EXAMPLE. Particle scattering The motion of billiard balls
    25. Slide 25: TIPS #1 To make your presentation boring, never insert photo. like me.
    26. Slide 26: TIPS #1 To make your presentation boring, never insert photo. use clipart.
    27. Slide 27: Direct Scattering Problem Scatterer Spectrum
    28. Slide 28: AND TIPS #2 use symbol. jargon. whenever you can.
    29. Slide 29: Direct Scattering Problem Sturm-Liouville equation CONSIDER :  xx  (  u ( x))  0 Eigenvalue Potential Eigenfunction (t=0) INPUT : Potential OUTPUT : Spectrum
    30. Slide 30: Direct Scattering Problem Ha Ha Ha… CONSIDER : SOMETHING WAS HERE Eigen blah Blah Eigen blah (t=0) INPUT : blah OUTPUT : BLAH
    31. Slide 31: Direct Scattering Problem Ha Ha Ha… CONSIDER : blah BLAH Eigen blah Blah Eigen blah (t=0) INPUT : blah OUTPUT : BLAH
    32. Slide 32: Direct Scattering Problem Spectrum Types spectrum { , } discrete continuous  = negative  = positive  = blah blah  = again blah
    33. Slide 33: Direct Scattering Problem Graph : When Discrete 1 0.8 0.6 0.4 0.2 -6 -5 -4 -3 -2 -1 eigenfunction decays exponentially
    34. Slide 34: Direct Scattering Problem And when continuous u Transmitted Reflected Incident v
    35. Slide 35: HA HA HA… TIPS #3 use 1980s style graph!
    36. Slide 36: Direct Scattering Problem Example | Direc Delta* u ( x)  U 0 ( x) , x  0  ( x)    0, x  0 * distribution, not function.
    37. Slide 37: ENOUGH. Next.
    38. Slide 38: Inverse Scattering Problem Spectrum Scatterer
    39. Slide 39: Inverse Scattering Problem Just the inverse BLAH blah INPUT : Spectrum OUTPUT : Potential
    40. Slide 40: INPUT BECOMES OUTPUT. and vice versa.
    41. Slide 41: BORED? not yet? you will be.
    42. Slide 42: Inverse Scattering Problem Our Goal  xx  (  u )  0 k 2  xx  (k  u )  0 2
    43. Slide 43: Inverse Scattering Problem Our Boredom  The solution is assumed to be:    ( x; k )  e ikx   K ( x, z )e dz ikz x MAGIC  ˆ dK    e ikx  u  2    ( K xx  K zz  u ( x) K )e ikz dz  0  dx  x  
    44. Slide 44: Inverse Scattering Problem Sorry  From Cauchy’s theorem we get:   (  e ikx ˆ )e dz  0 ikz  MAGIC. AGAIN.   C    B 
    45. Slide 45: Inverse Scattering Problem One More  Input particle energy = variable  Impact parameter = constant BORED?  K ( x, z )  F ( x  z )   K ( x, z ) F ( y  z )dy  0 x
    46. Slide 46: Inverse Scattering Problem Almost Done Scattering U(x,0) S(0) Time KdV Inverse Scattering U(x,t) S(t)
    47. Slide 47: IN BRIEF HISTORY OF TIME STEPHEN HAWKING SAID,
    48. Slide 48: STEPHEN HAWKING SAID, every equation helps to lose the readers by half.
    49. Slide 49: SOMETHING LIKE THIS. every equation helps to lose the readers by half.
    50. Slide 50: HA HA HA… how many equations I have used here?
    51. Slide 51: OOPS. you there?
    52. Slide 52: HELLO. anybody?
    53. Slide 53: SORRY. forget everything I said.
    54. Slide 54: THE END of boredom.
    55. Slide 55: NOW BLAME ME OR GOOGLE ME OR
    56. Slide 56: rupantor.blogspot.com VISIT MY CINEMA TEAM BLOG.
    57. Slide 57: AND THANK ME FOR BORING YOU.
    58. Slide 58: ALSO THANK YOURSELF FOR YOUR PATIENCE.

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