Πέμπτη, 20 Οκτωβρίου 2016

TRIANGLE CENTERS FROM HYACINTHOS

H001 = HATZIPOLAKIS - MONTESDEOCA

Barycentrics (a (2 a^3 - 3 a^2 (b + c) + 3 (b - c)^2 (b + c) - 2 a (b^2 - 3 b c + c^2)) :

Let ABC be a triangle.

Denote:

Na, Nb, Nc = the NPC centers of IBC, ICA, IAB, resp.

A1, B1, C1 = the orthogonal projections of Na, Nb, Nc on IA, IB, IC, resp.

A2, B2, C2 = the reflections of Na, Nb, Nc, in IA, IB, IC, resp.

The Euler line of A2B2C2 is the OI line of ABC.

The point is the O of ABC wrt the triangle A2B2C2

The orthocenter of A1B1C1 is the point X942

(Antreas Hatzipolakis and Angel Montesdeoca, Sept. 13, 2016. See: Hyacinthos #24380)

The point lies on these lines: {1, 3}, {4, 1392}, {5, 519}, {8, 3090}, {10, 3628}, {20, 3655}, {30, 4301}, {72, 1173}, {140, 551}, {145, 355}, {381, 5881}, {392, 5047}, {515, 1483}, {518, 576}, {546, 946}, {547, 4669}, {548, 5493}, {573, 3723}, {575, 1386}, {631, 3654}, {632, 1125}, {944, 3146}, {956, 3951}, {962, 3529}, {1000, 5703}, {1056, 4323}, {1058, 4345}, {1210, 1387}, {1320, 1389}, {1339, 6048}, {1457, 5399}, {1656, 3679}, {1657, 9589}, {1837, 7743}, {1870, 1872}, {2771, 7984}, {2800, 3881}, {3058, 7491}, {3419, 6984}, {3485, 6982}, {3488, 5812}, {3523, 3653}, {3525, 3616}, {3555, 5887}, {3584, 5559}, {3585, 7972}, {3621, 5818}, {3622, 5657}, {3632, 5079}, {3633, 5072}, {3636, 6684}, {3680, 6918}, {3872, 3984}, {3892, 5884}, {3913, 6911}, {3915, 5398}, {3940, 4853}, {3962, 5288}, {3991, 4919}, {4004, 5253}, {4511, 6946}, {4677, 5055}, {4870, 6980}, {4902, 5059}, {4930, 6913}, {5044, 5289}, {5054, 9588}, {5076, 5691}, {5258, 7489}, {5722, 5761}, {5727, 9669}, {6419, 7969}, {6420, 7968}, {6447, 9583}, {6519, 9616}, {6863, 10056}, {6914, 8666}, {6924, 8715}, {6958, 10072}, {6988, 7320}

= Midpoint of X(i) and X(j) for these {i,j}: {1, 1482}, {3, 7982}, {40, 8148}, {145, 355}, {381, 2487}, {946, 3244}, {1320, 6265}, {1657, 9589}, {3241, 3656}, {3555, 5887}, {4301, 5882}.

= Reflection of X(i) in X(j) for these {i,j}: {8, 9956}, {10, 5901}, {65, 6583}, {355, 9955}, {1385, 1}, {1483, 3635}, {3579, 1385}, {4669, 547}, {5493, 548}, {5690, 1125}, {6684, 3636}.

H002 = HATZIPOLAKIS - MONTESDEOCA

X(10282) = X(3)X(64)∩X(51)X(54)

Barycentrics( a^2 (2 a^8-5 a^6 (b^2+c^2)+a^4 (3 b^4+4 b^2 c^2+3 c^4)+a^2 (b^2-c^2)^2 (b^2+c^2)-(b^2-c^2)^2 (b^4+c^4)):

Let ABC be a triangle.

Denote:

Oa, Ob, Oc = the circumcenters of OBC, OCA, OAB, resp.

N1, N2, N3 = the NPC centers of OObOc, OOcOa, OOaOb, resp.

ABC, N1N2N3 are orthologic. The orthologic center (ABC, N1N2N3) is X74

The point is the orthologic center (N1N2N3, ABC)

(Antreas Hatzipolakis and Angel Montesdeoca, Oct. 20, 2016. See: Hyacinthos #24665)

The point lies on these lines: {2, 9833}, {3, 64}, {4, 1495}, {5, 5944}, {6, 3517}, {22, 1092}, {24, 184}, {25, 578}, {26, 206}, {30, 5448}, {39, 1971}, {49, 52}, {51, 54}, {110, 5562}, {125, 10018}, {140, 1503}, {143, 5097}, {156, 1658}, {159, 182}, {161, 569}, {185, 186}, {216, 3463}, {376, 5878}, {394, 9715}, {436, 8884}, {468, 6146}, {549, 6247}, {550, 1511}, {567, 9920}, {568, 9704}, {575, 2393}, {1181, 3515}, {1216, 7502}, {1660, 6644}, {1853, 3526}, {1899, 3147}, {1970, 3199}, {1994, 9706}, {2781, 7555}, {3060, 9545}, {3270, 9638}, {3292, 7556}, {3522, 5656}, {3528, 6225}, {3530, 6696}, {3534, 5895}, {3574, 7576}, {3917, 7512}, {5010, 6285}, {5050, 9924}, {5447, 7525}, {5449, 10020}, {5480, 7715}, {5651, 7509}, {5889, 9544}, {5894, 8703}, {6001, 7508}, {6102, 7575}, {6243, 9703}, {7280, 7355}, {8681, 9937}, {8718, 9934}.

H003 = HATZIPOLAKIS - MOSES

X(10283) = REFLECTION OF X(5) IN X(5886)

Barycentrics 4 a^4-4 a^3 b-5 a^2 b^2+4 a b^3+b^4-4 a^3 c+8 a^2 b c-4 a b^2 c-5 a^2 c^2-4 a b c^2-2 b^2 c^2+4 a c^3+c^4::

Let ABC be a triangle.

Denote:

Na, Nb, Nc = the NPC centers of IBC, ICA, IAB, resp.

Oib, Oib, Oic = the circumcenters of INbNc, INcNa, INaNb, resp.

The point is the centroid of OiaOibOic lying on the IN line.

(Antreas Hatzipolakis and Peter Moses, Oct. 20, 2016. See: Hyacinthos #24667)

The point lies on these lines: {1,5},{2,5844},{3,3622},{8, 3628},{30,5603},{140,1482},{ 145,1656},{165,3653},...

= {X(i),X(j)}-harmonic conjugate of X(k) for these (i,j,k): (1,5,1483),(1,5901,5),(1,7951, 1317),(1,9624,355),(355,5886, 7988),(1482,3616,140),(7988, 9624,5886).

= Reflection of X(i) and X(j) for these {i,j}: {{5,5886},{5657,140},{5790, 547},{5886,5901},{8703,3576}}.

= Midpoint of X(i) and X(j) for these {i,j}: {{1,5886},{2,10247},{381,7967} ,{1482,5657},{1699,3655},{ 3241,5790},{3576,3656},{5603, 10246}}.

= 2 X[1] + X[5], 5 X[5] - 2 X[355], 5 X[1] + X[355], 2 X[140] + X[1482], 4 X[1] - X[1483], 2 X[5] + X[1483], 4 X[355] + 5 X[1483], 4 X[1387] - X[1484], X[145] + 5 X[1656], 2 X[140] - 5 X[3616], X[1482] + 5 X[3616], X[3] - 7 X[3622], X[8] - 4 X[3628], X[165] - 3 X[3653], 3 X[355] - 5 X[5587], 3 X[5] - 2 X[5587], 3 X[1] + X[5587], 3 X[1483] + 4 X[5587], 5 X[3616] - X[5657], 3 X[5603] + X[5731], 11 X[355] - 5 X[5881], 11 X[5587] - 3 X[5881], 11 X[5] - 2 X[5881], 11 X[1] + X[5881], 11 X[1483] + 4 X[5881], X[5881] - 11 X[5886], X[355] - 5 X[5886], X[5587] - 3 X[5886], X[1483] + 4 X[5886], X[355] - 10 X[5901], X[5587] - 6 X[5901], X[5] - 4 X[5901], X[1] + 2 X[5901], X[1483] + 8 X[5901], 5 X[5587] - 9 X[7988], 5 X[5] - 6 X[7988], X[355] - 3 X[7988], 5 X[5886] - 3 X[7988], 10 X[5901] - 3 X[7988], 5 X[1] + 3 X[7988], 5 X[1483] + 12 X[7988], 17 X[5] - 14 X[7989], 17 X[5886] - 7 X[7989], 17 X[1] + 7 X[7989], 7 X[5587] - 15 X[8227], 7 X[5] - 10 X[8227], 7 X[5886] - 5 X[8227], 14 X[5901] - 5 X[8227], 7 X[1] + 5 X[8227], 5 X[7989] - 17 X[9624], 5 X[5] - 14 X[9624], X[355] - 7 X[9624], 5 X[5886] - 7 X[9624], 10 X[5901] - 7 X[9624], 3 X[7988] - 7 X[9624], 5 X[1] + 7 X[9624], 5 X[5603] - X[9812], 5 X[5731] + 3 X[9812], X[5731] - 3 X[10246], X[9812] + 5 X[10246],...

H004 = HUNG - MONTESDEOCA

Barycentrics a (a^5 b-a^4 b^2-2 a^3 b^3+2 a^2 b^4+a b^5-b^6+a^5 c-6 a^4 b c+7 a^3 b^2 c+4 a^2 b^3 c-8 a b^4 c+2 b^5 c-a^4 c^2+7 a^3 b c^2-14 a^2 b^2 c^2+7 a b^3 c^2+b^4 c^2-2 a^3 c^3+4 a^2 b c^3+7 a b^2 c^3-4 b^3 c^3+2 a^2 c^4-8 a b c^4+b^2 c^4+a c^5+2 b c^5-c^6)::

= (2 r – 3 R) X[1] - (2 r - R) X[3] =

Let ABC be a triangle.

A1B1C1 is pedal triangle of incenter I.

A2,B2,C2 are reflections of A1,B1,C1 through I.

A3,B3,C3 are reflections of A,B,C through A2,B2,C2, reps.

The point is the NPC center of A3B3C3 lying on the OI line of ABC.

(Tran Quang Hung and Angel Montesdeoca, Sept. 20, 2016. See: Hyacinthos #24438)

The point lies on these lines: {1,3},{5,2802},{8,6965},....

H005 = HUNG - MOSES - EULER 1

X(10285) = EULER-LINE INTERCEPT OF X(54)X(1263)

Barycentrics 2 a^16-9 a^14 b^2+15 a^12 b^4-9 a^10 b^6-5 a^8 b^8+13 a^6 b^10-11 a^4 b^12+5 a^2 b^14-b^16-9 a^14 c^2+22 a^12 b^2 c^2-13 a^10 b^4 c^2-15 a^6 b^8 c^2+34 a^4 b^10 c^2-27 a^2 b^12 c^2+8 b^14 c^2+15 a^12 c^4-13 a^10 b^2 c^4+4 a^8 b^4 c^4-7 a^6 b^6 c^4-22 a^4 b^8 c^4+51 a^2 b^10 c^4-28 b^12 c^4-9 a^10 c^6-7 a^6 b^4 c^6-2 a^4 b^6 c^6-29 a^2 b^8 c^6+56 b^10 c^6-5 a^8 c^8-15 a^6 b^2 c^8-22 a^4 b^4 c^8-29 a^2 b^6 c^8-70 b^8 c^8+13 a^6 c^10+34 a^4 b^2 c^10+51 a^2 b^4 c^10+56 b^6 c^10-11 a^4 c^12-27 a^2 b^2 c^12-28 b^4 c^12+5 a^2 c^14+8 b^2 c^14-c^16::

Let ABC be a triangle.

Denote: Ha, Hb, Hc = the orthocenters of NBC, NCA, NAB, resp.

Oa, Ob, Oc = the circumcenters of NBC, NCA, NAB, resp.

Nha,Nhb,Nhc = the NPC centers of NHbHc,NHcHa,NHaHb, resp.

The point is the NPC center of NhaNhbNhc lying on the Euler line of ABC.

(Tran Quang Hung and Peter Moses, Oct. 20, 2016. See: Hyacinthos #24664)

The point lies on these lines:{2,3},{54,1263}.

= Anticomplement X[10126].

= Reflection of X(i) in X(j) for these {i,j}: {{5, 5501}, {10205, 140}}.

X(54) {Nha,Nhb,Nhc} = N ABC.

X(1141) {Nha,Nhb,Nhc} = H ABC.

X(1157) {Nha,Nhb,Nhc} = X(1263) ABC.

X(8254) {Nha,Nhb,Nhc} = X(5501) ABC.

H006 = HUNG - MOSES - EULER 2

X(10286) = MIDPOINT OF X(5) AND X(5500)

Barycentrics 2 a^22-15 a^20 b^2+50 a^18 b^4-93 a^16 b^6+92 a^14 b^8-14 a^12 b^10-84 a^10 b^12+110 a^8 b^14-62 a^6 b^16+13 a^4 b^18+2 a^2 b^20-b^22-15 a^20 c^2+82 a^18 b^2 c^2-172 a^16 b^4 c^2+139 a^14 b^6 c^2+41 a^12 b^8 c^2-125 a^10 b^10 c^2+3 a^8 b^12 c^2+97 a^6 b^14 c^2-54 a^4 b^16 c^2-a^2 b^18 c^2+5 b^20 c^2+50 a^18 c^4-172 a^16 b^2 c^4+160 a^14 b^4 c^4+52 a^12 b^6 c^4-94 a^10 b^8 c^4-65 a^8 b^10 c^4+58 a^6 b^12 c^4+32 a^4 b^14 c^4-14 a^2 b^16 c^4-7 b^18 c^4-93 a^16 c^6+139 a^14 b^2 c^6+52 a^12 b^4 c^6-72 a^10 b^6 c^6-39 a^8 b^8 c^6-84 a^6 b^10 c^6+98 a^4 b^12 c^6+4 a^2 b^14 c^6-5 b^16 c^6+92 a^14 c^8+41 a^12 b^2 c^8-94 a^10 b^4 c^8-39 a^8 b^6 c^8-18 a^6 b^8 c^8-89 a^4 b^10 c^8+76 a^2 b^12 c^8+22 b^14 c^8-14 a^12 c^10-125 a^10 b^2 c^10-65 a^8 b^4 c^10-84 a^6 b^6 c^10-89 a^4 b^8 c^10-134 a^2 b^10 c^10-14 b^12 c^10-84 a^10 c^12+3 a^8 b^2 c^12+58 a^6 b^4 c^12+98 a^4 b^6 c^12+76 a^2 b^8 c^12-14 b^10 c^12+110 a^8 c^14+97 a^6 b^2 c^14+32 a^4 b^4 c^14+4 a^2 b^6 c^14+22 b^8 c^14-62 a^6 c^16-54 a^4 b^2 c^16-14 a^2 b^4 c^16-5 b^6 c^16+13 a^4 c^18-a^2 b^2 c^18-7 b^4 c^18+2 a^2 c^20+5 b^2 c^20-c^22::

Let ABC be a triangle.

Denote:

Oa, Ob, Oc = the circumcenters of NBC, NCA, NAB, resp.

Noa,Nob,Noc = the NPC centers of NObOc,NOcOa,NOaOb, resp.

The point is the NPC center of NoaNobNoc lying on the Euler line of ABC.

(Tran Quang Hung and Peter Moses, Oct. 20, 2016. See: Hyacinthos #24664)

The point lies on these lines:{2,3} = Midpoint of X[5] and X[5500].

H007 = KIRIKAMI - MONTESDEOCA - EULER 1

X(10287) = X(3)X(2575)∩X(5)X(523)

Barycentrics (b^2+c^2-a^2) (R F1 + a^2 G1 |OH|)::

where F1 = a^30 (b^2+c^2)-6 a^28 (2 b^4+b^2 c^2+2 c^4)+9 a^26 (6 b^6+5 b^4 c^2+5 b^2 c^4+6 c^6)-a^24 (111 b^8+245 b^6 c^2+42 b^4 c^4+245 b^2 c^6+111 c^8)+3 a^22 (21 b^10+242 b^8 c^2+41 b^6 c^4+41 b^4 c^6+242 b^2 c^8+21 c^10)+a^20 (174 b^12-1145 b^10 c^2-856 b^8 c^4+750 b^6 c^6-856 b^4 c^8-1145 b^2 c^10+174 c^12)-8 a^18 (47 b^14-81 b^12 c^2-306 b^10 c^4+150 b^8 c^6+150 b^6 c^8-306 b^4 c^10-81 b^2 c^12+47 c^14)+a^16 (207 b^16+982 b^14 c^2-4004 b^12 c^4+410 b^10 c^6+2794 b^8 c^8+410 b^6 c^10-4004 b^4 c^12+982 b^2 c^14+207 c^16)+a^14 (207 b^18-2387 b^16 c^2+4142 b^14 c^4+498 b^12 c^6-2076 b^10 c^8-2076 b^8 c^10+498 b^6 c^12+4142 b^4 c^14-2387 b^2 c^16+207 c^18)-4 a^12 (94 b^20-498 b^18 c^2+441 b^16 c^4+582 b^14 c^6-615 b^12 c^8+24 b^10 c^10-615 b^8 c^12+582 b^6 c^14+441 b^4 c^16-498 b^2 c^18+94 c^20)+a^10 (b^2-c^2)^4 (174 b^14+493 b^12 c^2-1435 b^10 c^4-1232 b^8 c^6-1232 b^6 c^8-1435 b^4 c^10+493 b^2 c^12+174 c^14)+a^8 (b^2-c^2)^4 (63 b^16-845 b^14 c^2+1176 b^12 c^4-123 b^10 c^6+322 b^8 c^8-123 b^6 c^10+1176 b^4 c^12-845 b^2 c^14+63 c^16)-a^6 (b^2-c^2)^6 (111 b^14-402 b^12 c^2-36 b^10 c^4+7 b^8 c^6+7 b^6 c^8-36 b^4 c^10-402 b^2 c^12+111 c^14)+a^4 (b^2-c^2)^8 (b^2+c^2)^2 (54 b^8-149 b^6 c^2+124 b^4 c^4-149 b^2 c^6+54 c^8)-6 a^2 (b^2-c^2)^10 (b^2+c^2)^3 (2 b^4-3 b^2 c^2+2 c^4)+(b^2-c^2)^12 (b^2+c^2)^4,

and G1 = a^26 (b^4+c^4)-7 a^24 (b^6+b^4 c^2+b^2 c^4+c^6)+a^22 (18 b^8+59 b^6 c^2+16 b^4 c^4+59 b^2 c^6+18 c^8)-a^20 (14 b^10+205 b^8 c^2+73 b^6 c^4+73 b^4 c^6+205 b^2 c^8+14 c^10)+a^18 (-25 b^12+349 b^10 c^2+363 b^8 c^4-134 b^6 c^6+363 b^4 c^8+349 b^2 c^10-25 c^12)+a^16 (63 b^14-194 b^12 c^2-992 b^10 c^4+291 b^8 c^6+291 b^6 c^8-992 b^4 c^10-194 b^2 c^12+63 c^14)-2 a^14 (18 b^16+169 b^14 c^2-808 b^12 c^4+31 b^10 c^6+492 b^8 c^8+31 b^6 c^10-808 b^4 c^12+169 b^2 c^14+18 c^16)-2 a^12 (18 b^18-371 b^16 c^2+765 b^14 c^4+191 b^12 c^6-443 b^10 c^8-443 b^8 c^10+191 b^6 c^12+765 b^4 c^14-371 b^2 c^16+18 c^18)+a^10 (63 b^20-518 b^18 c^2+319 b^16 c^4+1488 b^14 c^6-1406 b^12 c^8+236 b^10 c^10-1406 b^8 c^12+1488 b^6 c^14+319 b^4 c^16-518 b^2 c^18+63 c^20)-a^8 (b^2-c^2)^2 (25 b^18+109 b^16 c^2-1104 b^14 c^4+1160 b^12 c^6-126 b^10 c^8-126 b^8 c^10+1160 b^6 c^12-1104 b^4 c^14+109 b^2 c^16+25 c^18)-a^6 (b^2-c^2)^4 (14 b^16-303 b^14 c^2+608 b^12 c^4-57 b^10 c^6+148 b^8 c^8-57 b^6 c^10+608 b^4 c^12-303 b^2 c^14+14 c^16)+a^4 (b^2-c^2)^6 (18 b^14-157 b^12 c^2+39 b^10 c^4+52 b^8 c^6+52 b^6 c^8+39 b^4 c^10-157 b^2 c^12+18 c^14)-a^2 (b^2-c^2)^8 (b^2+c^2)^2 (7 b^8-47 b^6 c^2+38 b^4 c^4-47 b^2 c^6+7 c^8)+(b^2-c^2)^10 (b^2+c^2)^3 (b^4-5 b^2 c^2+c^4)

The point is the point of concurrence of the Euler lines of AHX(1113), BHX(1113), CHX(1113)

(Seiichi Kirikami and Angel Montesdeoca, Oct 6, 2016. See: Hyacinthos #24541) and #24545)

= X(3)X(2575) /\ X(5)X(523)

H008 = KIRIKAMI - MONTESDEOCA - EULER 2

X(10288) = X(3)X(2574)∩X(5)X(523)

Barycentrics (b^2+c^2-a^2) (R F1 - a^2 G1 |OH|)::

where F1 = a^30 (b^2+c^2)-6 a^28 (2 b^4+b^2 c^2+2 c^4)+9 a^26 (6 b^6+5 b^4 c^2+5 b^2 c^4+6 c^6)-a^24 (111 b^8+245 b^6 c^2+42 b^4 c^4+245 b^2 c^6+111 c^8)+3 a^22 (21 b^10+242 b^8 c^2+41 b^6 c^4+41 b^4 c^6+242 b^2 c^8+21 c^10)+a^20 (174 b^12-1145 b^10 c^2-856 b^8 c^4+750 b^6 c^6-856 b^4 c^8-1145 b^2 c^10+174 c^12)-8 a^18 (47 b^14-81 b^12 c^2-306 b^10 c^4+150 b^8 c^6+150 b^6 c^8-306 b^4 c^10-81 b^2 c^12+47 c^14)+a^16 (207 b^16+982 b^14 c^2-4004 b^12 c^4+410 b^10 c^6+2794 b^8 c^8+410 b^6 c^10-4004 b^4 c^12+982 b^2 c^14+207 c^16)+a^14 (207 b^18-2387 b^16 c^2+4142 b^14 c^4+498 b^12 c^6-2076 b^10 c^8-2076 b^8 c^10+498 b^6 c^12+4142 b^4 c^14-2387 b^2 c^16+207 c^18)-4 a^12 (94 b^20-498 b^18 c^2+441 b^16 c^4+582 b^14 c^6-615 b^12 c^8+24 b^10 c^10-615 b^8 c^12+582 b^6 c^14+441 b^4 c^16-498 b^2 c^18+94 c^20)+a^10 (b^2-c^2)^4 (174 b^14+493 b^12 c^2-1435 b^10 c^4-1232 b^8 c^6-1232 b^6 c^8-1435 b^4 c^10+493 b^2 c^12+174 c^14)+a^8 (b^2-c^2)^4 (63 b^16-845 b^14 c^2+1176 b^12 c^4-123 b^10 c^6+322 b^8 c^8-123 b^6 c^10+1176 b^4 c^12-845 b^2 c^14+63 c^16)-a^6 (b^2-c^2)^6 (111 b^14-402 b^12 c^2-36 b^10 c^4+7 b^8 c^6+7 b^6 c^8-36 b^4 c^10-402 b^2 c^12+111 c^14)+a^4 (b^2-c^2)^8 (b^2+c^2)^2 (54 b^8-149 b^6 c^2+124 b^4 c^4-149 b^2 c^6+54 c^8)-6 a^2 (b^2-c^2)^10 (b^2+c^2)^3 (2 b^4-3 b^2 c^2+2 c^4)+(b^2-c^2)^12 (b^2+c^2)^4,

and G1 = a^26 (b^4+c^4)-7 a^24 (b^6+b^4 c^2+b^2 c^4+c^6)+a^22 (18 b^8+59 b^6 c^2+16 b^4 c^4+59 b^2 c^6+18 c^8)-a^20 (14 b^10+205 b^8 c^2+73 b^6 c^4+73 b^4 c^6+205 b^2 c^8+14 c^10)+a^18 (-25 b^12+349 b^10 c^2+363 b^8 c^4-134 b^6 c^6+363 b^4 c^8+349 b^2 c^10-25 c^12)+a^16 (63 b^14-194 b^12 c^2-992 b^10 c^4+291 b^8 c^6+291 b^6 c^8-992 b^4 c^10-194 b^2 c^12+63 c^14)-2 a^14 (18 b^16+169 b^14 c^2-808 b^12 c^4+31 b^10 c^6+492 b^8 c^8+31 b^6 c^10-808 b^4 c^12+169 b^2 c^14+18 c^16)-2 a^12 (18 b^18-371 b^16 c^2+765 b^14 c^4+191 b^12 c^6-443 b^10 c^8-443 b^8 c^10+191 b^6 c^12+765 b^4 c^14-371 b^2 c^16+18 c^18)+a^10 (63 b^20-518 b^18 c^2+319 b^16 c^4+1488 b^14 c^6-1406 b^12 c^8+236 b^10 c^10-1406 b^8 c^12+1488 b^6 c^14+319 b^4 c^16-518 b^2 c^18+63 c^20)-a^8 (b^2-c^2)^2 (25 b^18+109 b^16 c^2-1104 b^14 c^4+1160 b^12 c^6-126 b^10 c^8-126 b^8 c^10+1160 b^6 c^12-1104 b^4 c^14+109 b^2 c^16+25 c^18)-a^6 (b^2-c^2)^4 (14 b^16-303 b^14 c^2+608 b^12 c^4-57 b^10 c^6+148 b^8 c^8-57 b^6 c^10+608 b^4 c^12-303 b^2 c^14+14 c^16)+a^4 (b^2-c^2)^6 (18 b^14-157 b^12 c^2+39 b^10 c^4+52 b^8 c^6+52 b^6 c^8+39 b^4 c^10-157 b^2 c^12+18 c^14)-a^2 (b^2-c^2)^8 (b^2+c^2)^2 (7 b^8-47 b^6 c^2+38 b^4 c^4-47 b^2 c^6+7 c^8)+(b^2-c^2)^10 (b^2+c^2)^3 (b^4-5 b^2 c^2+c^4)

The point is the point of concurrence of the Euler lines of AHX(1114), BHX(1114), CHX(1114)

(Seiichi Kirikami and Angel Montesdeoca, Oct 6, 2016. See: Hyacinthos #24541) and #24545)

= X(3)X(2574) /\ X(5)X(523)

H009 = HATZIPOLAKIS - MOSES

X(10289) = 6th HATZIPOLAKIS-MOSES-EULER POINT

Barycentrics 2 a^16-13 a^14 b^2+43 a^12 b^4-89 a^10 b^6+115 a^8 b^8-87 a^6 b^10+33 a^4 b^12-3 a^2 b^14-b^16-13 a^14 c^2+62 a^12 b^2 c^2-113 a^10 b^4 c^2+64 a^8 b^6 c^2+61 a^6 b^8 c^2-94 a^4 b^10 c^2+33 a^2 b^12 c^2+43 a^12 c^4-113 a^10 b^2 c^4+68 a^8 b^4 c^4+17 a^6 b^6 c^4+46 a^4 b^8 c^4-81 a^2 b^10 c^4+20 b^12 c^4-89 a^10 c^6+64 a^8 b^2 c^6+17 a^6 b^4 c^6+30 a^4 b^6 c^6+51 a^2 b^8 c^6-64 b^10 c^6+115 a^8 c^8+61 a^6 b^2 c^8+46 a^4 b^4 c^8+51 a^2 b^6 c^8+90 b^8 c^8-87 a^6 c^10-94 a^4 b^2 c^10-81 a^2 b^4 c^10-64 b^6 c^10+33 a^4 c^12+33 a^2 b^2 c^12+20 b^4 c^12-3 a^2 c^14-c^16::

Let ABC be a triangle and A'B'C' the pedal triangle of N.

Denote:

Oa, Ob, Oc = the circumcenters of NB'C', NC'A', NA'B', resp.

Ooa, Oob, Ooc = the circumcenters of NObOc,NOcOa,NOaOb, resp.

The point is the NPC center of OoaOobOoc lying on the Euler line of ABC.

(Antreas Hatzipolakis and Peter Moses, Oct 21, 2016. See: Hyacinthos #24670)

The point lies on these lines:{2,3}


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