Generalization of the Central Limit Theorem for

          Repeated Throws of a fair k-faced die, for k between 2(coin)

                                     and , 6



                              by Shalosh B. Ekhad



                    Theorem Number , 2,  : Consider the r.v.

                              total number of dots

            obtained on rolling n times a fair die, with, 2,  faces

                 such that the faces have 1, 2, ..., , 2, dots

      The even, 2r-th, moment, about the mean is (asymptotically, ignoring

                               1
                              ----, and beyond):
                                4
                               n

              /
     r        |    (r - 1) r   r (r - 1) (r - 2) (5 r + 1)
(n/4)  (2 r)! |1 - --------- + ---------------------------
              |       3 n                     2
              \                           90 n

                                    2               \
       (r - 1) (r - 2) (r - 3) (35 r  + 21 r - 32) r|   /      r
     - ---------------------------------------------|  /  (r! 2 )
                                3                   | /
                          5670 n                    /

                              The variance is, n/4

      After dividing by the variance to the power r (i.e. normalizing it)

                   we get that the normalized 2r-th moment is

       /
       |    (r - 1) r   r (r - 1) (r - 2) (5 r + 1)
(2 r)! |1 - --------- + ---------------------------
       |       3 n                     2
       \                           90 n

                                    2               \
       (r - 1) (r - 2) (r - 3) (35 r  + 21 r - 32) r|   /      r
     - ---------------------------------------------|  /  (r! 2 )
                                3                   | /
                          5670 n                    /

            In particular, it follows that this discrete prob. dist.

                is asymptotically normal, but it does much more!

                              We have established

                         the asymptotic to, 4, terms .

              Of course, by symmetry, all the odd moments are zero

      but we can derive this directly, getting that the odd moments eqaul

                                       0

                    Theorem Number , 3,  : Consider the r.v.

                              total number of dots

            obtained on rolling n times a fair die, with, 3,  faces

                 such that the faces have 1, 2, ..., , 3, dots

      The even, 2r-th, moment, about the mean is (asymptotically, ignoring

                               1
                              ----, and beyond):
                                4
                               n

              /
/2 n\r        |    (r - 1) r   r (r - 1) (r - 2) (15 r + 7)
|---|  (2 r)! |1 - --------- + ----------------------------
\ 3 /         |       4 n                      2
              \                           480 n

                                    2               \
       (r - 1) (r - 2) (r - 3) (35 r  + 49 r - 18) r|   /      r
     - ---------------------------------------------|  /  (r! 2 )
                                3                   | /
                         13440 n                    /

                                               2 n
                              The variance is, ---
                                                3

      After dividing by the variance to the power r (i.e. normalizing it)

                   we get that the normalized 2r-th moment is

       /
       |    (r - 1) r   r (r - 1) (r - 2) (15 r + 7)
(2 r)! |1 - --------- + ----------------------------
       |       4 n                      2
       \                           480 n

                                    2               \
       (r - 1) (r - 2) (r - 3) (35 r  + 49 r - 18) r|   /      r
     - ---------------------------------------------|  /  (r! 2 )
                                3                   | /
                         13440 n                    /

            In particular, it follows that this discrete prob. dist.

                is asymptotically normal, but it does much more!

                              We have established

                         the asymptotic to, 4, terms .

              Of course, by symmetry, all the odd moments are zero

      but we can derive this directly, getting that the odd moments eqaul

                                       0

                    Theorem Number , 4,  : Consider the r.v.

                              total number of dots

            obtained on rolling n times a fair die, with, 4,  faces

                 such that the faces have 1, 2, ..., , 4, dots

      The even, 2r-th, moment, about the mean is (asymptotically, ignoring

                               1
                              ----, and beyond):
                                4
                               n

              /
/5 n\r        |    17 (r - 1) r   r (r - 1) (r - 2) (289 r + 173)
|---|  (2 r)! |1 - ------------ + -------------------------------
\ 4 /         |        75 n                         2
              \                              11250 n

                                         2                  \
       17 (r - 1) (r - 2) (r - 3) (2023 r  + 3633 r - 640) r|   /      r
     - -----------------------------------------------------|  /  (r! 2 )
                                      3                     | /
                            17718750 n                      /

                                               5 n
                              The variance is, ---
                                                4

      After dividing by the variance to the power r (i.e. normalizing it)

                   we get that the normalized 2r-th moment is

       /
       |    17 (r - 1) r   r (r - 1) (r - 2) (289 r + 173)
(2 r)! |1 - ------------ + -------------------------------
       |        75 n                         2
       \                              11250 n

                                         2                  \
       17 (r - 1) (r - 2) (r - 3) (2023 r  + 3633 r - 640) r|   /      r
     - -----------------------------------------------------|  /  (r! 2 )
                                      3                     | /
                            17718750 n                      /

            In particular, it follows that this discrete prob. dist.

                is asymptotically normal, but it does much more!

                              We have established

                         the asymptotic to, 4, terms .

              Of course, by symmetry, all the odd moments are zero

      but we can derive this directly, getting that the odd moments eqaul

                                       0

                    Theorem Number , 5,  : Consider the r.v.

                              total number of dots

            obtained on rolling n times a fair die, with, 5,  faces

                 such that the faces have 1, 2, ..., , 5, dots

      The even, 2r-th, moment, about the mean is (asymptotically, ignoring

                               1
                              ----, and beyond):
                                4
                               n

              /
     r        |    13 (r - 1) r   r (r - 1) (r - 2) (169 r + 113)
(2 n)  (2 r)! |1 - ------------ + -------------------------------
              |        60 n                         2
              \                               7200 n

                                         2                  \
       13 (r - 1) (r - 2) (r - 3) (1183 r  + 2373 r - 250) r|   /      r
     - -----------------------------------------------------|  /  (r! 2 )
                                     3                      | /
                            9072000 n                       /

                              The variance is, 2 n

      After dividing by the variance to the power r (i.e. normalizing it)

                   we get that the normalized 2r-th moment is

       /
       |    13 (r - 1) r   r (r - 1) (r - 2) (169 r + 113)
(2 r)! |1 - ------------ + -------------------------------
       |        60 n                         2
       \                               7200 n

                                         2                  \
       13 (r - 1) (r - 2) (r - 3) (1183 r  + 2373 r - 250) r|   /      r
     - -----------------------------------------------------|  /  (r! 2 )
                                     3                      | /
                            9072000 n                       /

            In particular, it follows that this discrete prob. dist.

                is asymptotically normal, but it does much more!

                              We have established

                         the asymptotic to, 4, terms .

              Of course, by symmetry, all the odd moments are zero

      but we can derive this directly, getting that the odd moments eqaul

                                       0

                    Theorem Number , 6,  : Consider the r.v.

                              total number of dots

            obtained on rolling n times a fair die, with, 6,  faces

                 such that the faces have 1, 2, ..., , 6, dots

      The even, 2r-th, moment, about the mean is (asymptotically, ignoring

                               1
                              ----, and beyond):
                                4
                               n

               /
/35 n\r        |    37 (r - 1) r   r (r - 1) (r - 2) (28749 r + 20393)
|----|  (2 r)! |1 - ------------ + -----------------------------------
\ 12 /         |       175 n                            2
               \                               1286250 n

                                         2                    \
       37 (r - 1) (r - 2) (r - 3) (9583 r  + 20393 r - 1440) r|   /      r
     - -------------------------------------------------------|  /  (r! 2 )
                                       3                      | /
                            225093750 n                       /

                                              35 n
                             The variance is, ----
                                               12

      After dividing by the variance to the power r (i.e. normalizing it)

                   we get that the normalized 2r-th moment is

       /
       |    37 (r - 1) r   r (r - 1) (r - 2) (28749 r + 20393)
(2 r)! |1 - ------------ + -----------------------------------
       |       175 n                            2
       \                               1286250 n

                                         2                    \
       37 (r - 1) (r - 2) (r - 3) (9583 r  + 20393 r - 1440) r|   /      r
     - -------------------------------------------------------|  /  (r! 2 )
                                       3                      | /
                            225093750 n                       /

            In particular, it follows that this discrete prob. dist.

                is asymptotically normal, but it does much more!

                              We have established

                         the asymptotic to, 4, terms .

              Of course, by symmetry, all the odd moments are zero

      but we can derive this directly, getting that the odd moments eqaul

                                       0

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