User:Noogai93/Numbers


 * 1) The gownglapulus is equal to \(\{10,100 (0,5) 2\}\ \&\ 10\) by using the array of operator BEAF. It has gowngulus entries
 * 2) The gunglapulus is equal to \(\{10,100 (0,6) 2\}\ \&\ 10\) by using the array of operator BEAF. It has gungulus entries
 * 3) The gaglapulus is equal to \(\{10,100 (0,7) 2\}\ \&\ 10\) by using the array of operator BEAF. It has gagulus entries
 * 4) The gynglapulus is equal to \(\{10,100 (0,8) 2\}\ \&\ 10\) by using the array of operator BEAF. It has gyngulus entries
 * 5) The bolapulus is equal to \(\{10,100 (0,0,1) 2\}\ \&\ 10\) by using the array of operator BEAF. It has bongulus entries
 * 6) The binglapulus is equal to \(\{10,100 (0,0,2) 2\}\ \&\ 10\) by using the array of operator BEAF. It has bingulus entries
 * 7) The banglapulus is equal to \(\{10,100 (0,0,3) 2\}\ \&\ 10\) by using the array of operator BEAF. It has bangulus entries
 * 8) The beenglapulus is equal to \(\{10,100 (0,0,4) 2\}\ \&\ 10\) by using the array of operator BEAF. It has beengulus entries
 * 9) The bownglapulus is equal to \(\{10,100 (0,0,5) 2\}\ \&\ 10\) by using the array of operator BEAF. It has bowngulus entries
 * 10) The bunglapulus is equal to \(\{10,100 (0,0,6) 2\}\ \&\ 10\) by using the array of operator BEAF. It has bungulus entries
 * 11) The trolapulus is equal to \(\{10,100 (0,0,0,1) 2\}\ \&\ 10\) by using the array of operator BEAF. It has trongulus entries
 * 12) The tringlapulus is equal to \(\{10,100 (0,0,0,2) 2\}\ \&\ 10\) by using the array of operator BEAF. It has tringulus entries
 * 13) The tranglapulus is equal to \(\{10,100 (0,0,0,3) 2\}\ \&\ 10\) by using the array of operator BEAF. It has trangulus entries
 * 14) The treenglapulus is equal to \(\{10,100 (0,0,0,4) 2\}\ \&\ 10\) by using the array of operator BEAF. It has treengulus entries
 * 15) The quadrolapulus is equal to \(\{10,100 (0,0,0,0,1) 2\}\ \&\ 10\) by using the array of operator BEAF. It has quadrongulus entries
 * 16) The quadringlapulus is equal to \(\{10,100 (0,0,0,0,2) 2\}\ \&\ 10\) by using the array of operator BEAF. It has quadringulus entries
 * 17) The quadranglapulus is equal to \(\{10,100 (0,0,0,0,3) 2\}\ \&\ 10\) by using the array of operator BEAF. It has quadrangulus entries
 * 18) The quintolapulus is equal to \(\{10,100 (0,0,0,0,0,1) 2\}\ \&\ 10\) by using the array of operator BEAF. It has quintongulus entries
 * 19) The quintinglapulus is equal to \(\{10,100 (0,0,0,0,0,2) 2\}\ \&\ 10\) by using the array of operator BEAF. It has quintingulus entries
 * 20) The sextolapulus is equal to \(\{10,100 (0,0,0,0,0,0,1) 2\}\ \&\ 10\) by using the array of operator BEAF. It has sextongulus entries
 * 21) The sextinglapulus is equal to \(\{10,100 (0,0,0,0,0,0,2) 2\}\ \&\ 10\) by using the array of operator BEAF. It has sextingulus entries
 * 22) The septolapulus is equal to \(\{10,100 (0,0,0,0,0,0,0,1) 2\}\ \&\ 10\) by using the array of operator BEAF. It has septongulus entries
 * 23) The octolapulus is equal to \(\{10,100 (0,0,0,0,0,0,0,0,1) 2\}\ \&\ 10\) by using the array of operator BEAF. It has octongulus entries
 * 24) The goplapulus is equal to \(\{10,100 ((1)1) 2\}\ \&\ 10\) by using the array of operator BEAF. It has goplexulus entries
 * 25) The goduplapulus is equal to \(\{10,100 ((0,1)1) 2\}\ \&\ 10\) by using the array of operator BEAF. It has goduplexulus entries
 * 26) The gotriplapulus is equal to \(\{10,100 (((1)1)1) 2\}\ \&\ 10\) by using the array of operator BEAF. It has gotriplexulus entries
 * 27) The giplapulus is equal to \(\{10,100 ((1)(1)1) 2\}\ \&\ 10\) by using the array of operator BEAF. It has giplexulus entries
 * 28) The goquadruplapulus is equal to \(\{10,100 (((0,1)1)1) 2\}\ \&\ 10\) by using the array of operator BEAF. It has goquadruplexulus entries
 * 29) The goquinplapulus is equal to \(\{10,100 ((((1)1)1)1) 2\}\ \&\ 10\) by using the array of operator BEAF. It has goquinplexulus entries
 * 30) The gosexplapulus is equal to \(\{10,100 ((((0,1)1)1)1) 2\}\ \&\ 10\) by using the array of operator BEAF. It has gosexplexulus entries