Incircle of the Circum-Incentral Triangle = Incircle of the Euler Triangle of the Excentral Triangle.

Incircle of the Circum-Incentral Triangle = Incircle of the Intangents Triangle of the Circum-Incentral Triangle.

Incircle of the Circum-Incentral Triangle = Circumcircle of the Mid-Arc Triangle of the Circum-Incentral Triangle.

Circumcircle of the Circum-Incentral Triangle = Circumcircle.

Circumcircle of the Circum-Incentral Triangle = Nine-Point Circle of the Excentral Triangle.

Circumcircle of the Circum-Incentral Triangle = Nine-Point Circle of the Anticomplementary Triangle.

Circumcircle of the Circum-Incentral Triangle = Circumcircle of the Euler Triangle of the Excentral Triangle.

Circumcircle of the Circum-Incentral Triangle = Circumcircle of the Feuerbach Triangle of the Excentral Triangle.

Circumcircle of the Circum-Incentral Triangle = Circumcircle of the Euler Triangle of the Anticomplementary Triangle.

Circumcircle of the Circum-Incentral Triangle = Circumcircle of the Feuerbach Triangle of the Anticomplementary Triangle.

Nine-Point Circle of the Circum-Incentral Triangle = Nine-Point Circle of the Euler Triangle of the Excentral Triangle.

Nine-Point Circle of the Circum-Incentral Triangle = Circumcircle of the Euler Triangle of the Circum-Incentral Triangle.

Nine-Point Circle of the Circum-Incentral Triangle = Circumcircle of the Feuerbach Triangle of the Circum-Incentral Triangle.

Spieker Circle of the Circum-Incentral Triangle = Spieker Circle of the Euler Triangle of the Excentral Triangle.

Bevan Circle of the Circum-Incentral Triangle = Bevan Circle of the Euler Triangle of the Excentral Triangle.

Apollonius Circle of the Circum-Incentral Triangle = Apollonius Circle of the Euler Triangle of the Excentral Triangle.

Radical Circle of the Excircles of the Circum-Incentral Triangle = Radical Circle of the Excircles of the Euler Triangle of the Excentral Triangle.

Brocard Circle of the Circum-Incentral Triangle = Brocard Circle of the Euler Triangle of the Excentral Triangle.

Brocard Circle of the Circum-Incentral Triangle = Circumcircle of the First Brocard Triangle of the Circum-Incentral Triangle.

Brocard Circle of the Circum-Incentral Triangle = Circumcircle of the Second Brocard Triangle of the Circum-Incentral Triangle.

Orthocentroidal Circle of the Circum-Incentral Triangle = Orthocentroidal Circle of the Euler Triangle of the Excentral Triangle.

Orthocentroidal Circle of the Circum-Incentral Triangle = Circumcircle of the Fourth Brocard Triangle of the Circum-Incentral Triangle.

Lemoine Circle of the Circum-Incentral Triangle = Lemoine Circle of the Euler Triangle of the Excentral Triangle.

The Incircle of the Circum-Incentral Triangle is concentric to the Bevan Circle of the Yff Central Triangle of the Circum-Incentral Triangle.

The Circumcircle of the Circum-Incentral Triangle is concentric to the Nine-Point Circle of the Fuhrmann Triangle of the Excentral Triangle.

The Circumcircle of the Circum-Incentral Triangle is concentric to the Nine-Point Circle of the Fuhrmann Triangle of the Anticomplementary Triangle.

The Nine-Point Circle of the Circum-Incentral Triangle is concentric to the Circumcircle of the Fuhrmann Triangle of the Medial Triangle.

The Nine-Point Circle of the Circum-Incentral Triangle is concentric to the Nine-Point Circle of the Fuhrmann Triangle of the Circum-Incentral Triangle.

The Spieker Circle of the Circum-Incentral Triangle is concentric to the Radical Circle of the Excircles of the Euler Triangle of the Excentral Triangle.

The Spieker Circle of the Circum-Incentral Triangle is concentric to the Bevan Circle of the Euler Triangle of the Circum-Incentral Triangle.

The Bevan Circle of the Circum-Incentral Triangle is concentric to the Radical Circle of the Excircles of the Excentral Triangle.

The Bevan Circle of the Circum-Incentral Triangle is concentric to the Spieker Circle of the Excentral Triangle.

The Bevan Circle of the Circum-Incentral Triangle is concentric to the Incircle of the Extangents Triangle of the Circum-Incentral Triangle.

The Radical Circle of the Excircles of the Circum-Incentral Triangle is concentric to the Spieker Circle of the Euler Triangle of the Excentral Triangle.

The Radical Circle of the Excircles of the Circum-Incentral Triangle is concentric to the Bevan Circle of the Euler Triangle of the Circum-Incentral Triangle.

The Brocard Circle of the Circum-Incentral Triangle is concentric to the Lemoine Circle of the Euler Triangle of the Excentral Triangle.

The Lemoine Circle of the Circum-Incentral Triangle is concentric to the Brocard Circle of the Euler Triangle of the Excentral Triangle.

The Lemoine Circle of the Circum-Incentral Triangle is concentric to the Circumcircle of the First Brocard Triangle of the Circum-Incentral Triangle.

The Lemoine Circle of the Circum-Incentral Triangle is concentric to the Circumcircle of the Second Brocard Triangle of the Circum-Incentral Triangle.

The Incircle of the Circum-Incentral Triangle is congruent to the Spieker Circle of the Excentral Triangle.

The Incircle of the Circum-Incentral Triangle is congruent to the Circumcircle of the Intangents Triangle of the Intouch Triangle.

The Incircle of the Circum-Incentral Triangle is congruent to the Spieker Circle of the Intangents Triangle of the Excentral Triangle.

The Incircle of the Circum-Incentral Triangle is congruent to the Nine-Point Circle of the Mid-Arc Triangle of the Excentral Triangle.

The Circumcircle of the Circum-Incentral Triangle is congruent to the Bevan Circle of the Medial Triangle.

The Circumcircle of the Circum-Incentral Triangle is congruent to the Bevan Circle of the Orthic Triangle.

The Circumcircle of the Circum-Incentral Triangle is congruent to the Bevan Circle of the Euler Triangle.

The Circumcircle of the Circum-Incentral Triangle is congruent to the Bevan Circle of the Feuerbach Triangle.

The Circumcircle of the Circum-Incentral Triangle is congruent to the Bevan Circle of the Euler Triangle of the Circum-Incentral Triangle.

The Circumcircle of the Circum-Incentral Triangle is congruent to the Bevan Circle of the Feuerbach Triangle of the Circum-Incentral Triangle.

The Circumcircle of the Circum-Incentral Triangle is congruent to the Bevan Circle of the Euler Triangle of the Circum-Medial Triangle.

The Circumcircle of the Circum-Incentral Triangle is congruent to the Bevan Circle of the Feuerbach Triangle of the Circum-Medial Triangle.

The Circumcircle of the Circum-Incentral Triangle is congruent to the Bevan Circle of the Euler Triangle of the Circum-Orthic Triangle.

The Circumcircle of the Circum-Incentral Triangle is congruent to the Bevan Circle of the Feuerbach Triangle of the Circum-Orthic Triangle.

The Circumcircle of the Circum-Incentral Triangle is congruent to the Bevan Circle of the Euler Triangle of the Circumcevian Triangle of the Skordev Point.

The Circumcircle of the Circum-Incentral Triangle is congruent to the Bevan Circle of the Feuerbach Triangle of the Circumcevian Triangle of the Skordev Point.

The Circumcircle of the Circum-Incentral Triangle is congruent to the Bevan Circle of the Euler Triangle of the Circumcevian Triangle of the Dimovski Point.

The Circumcircle of the Circum-Incentral Triangle is congruent to the Bevan Circle of the Feuerbach Triangle of the Circumcevian Triangle of the Dimovski Point.

The Circumcircle of the Circum-Incentral Triangle is congruent to the Bevan Circle of the Euler Triangle of the Circumcevian Triangle of the Stanilov Point.

The Circumcircle of the Circum-Incentral Triangle is congruent to the Bevan Circle of the Feuerbach Triangle of the Circumcevian Triangle of the Stanilov Point.

The Nine-Point Circle of the Circum-Incentral Triangle is congruent to the Nine-Point Circle.

The Nine-Point Circle of the Circum-Incentral Triangle is congruent to the Circumcircle of the Orthic Triangle.

The Nine-Point Circle of the Circum-Incentral Triangle is congruent to the Circumcircle of the Euler Triangle.

The Nine-Point Circle of the Circum-Incentral Triangle is congruent to the Circumcircle of the Feuerbach Triangle.

The Nine-Point Circle of the Circum-Incentral Triangle is congruent to the Bevan Circle of the Euler Triangle of the Medial Triangle.

The Nine-Point Circle of the Circum-Incentral Triangle is congruent to the Bevan Circle of the Feuerbach Triangle of the Medial Triangle.

The Nine-Point Circle of the Circum-Incentral Triangle is congruent to the Bevan Circle of the Euler Triangle of the Orthic Triangle.

The Nine-Point Circle of the Circum-Incentral Triangle is congruent to the Bevan Circle of the Feuerbach Triangle of the Orthic Triangle.

The Nine-Point Circle of the Circum-Incentral Triangle is congruent to the Nine-Point Circle of the Feuerbach Triangle of the Excentral Triangle.

The Nine-Point Circle of the Circum-Incentral Triangle is congruent to the Nine-Point Circle of the Euler Triangle of the Anticomplementary Triangle.

The Nine-Point Circle of the Circum-Incentral Triangle is congruent to the Nine-Point Circle of the Feuerbach Triangle of the Anticomplementary Triangle.

The Nine-Point Circle of the Circum-Incentral Triangle is congruent to the Circumcircle of the Euler Triangle of the Circum-Medial Triangle.

The Nine-Point Circle of the Circum-Incentral Triangle is congruent to the Circumcircle of the Feuerbach Triangle of the Circum-Medial Triangle.

The Nine-Point Circle of the Circum-Incentral Triangle is congruent to the Circumcircle of the Euler Triangle of the Circum-Orthic Triangle.

The Nine-Point Circle of the Circum-Incentral Triangle is congruent to the Circumcircle of the Feuerbach Triangle of the Circum-Orthic Triangle.

The Nine-Point Circle of the Circum-Incentral Triangle is congruent to the Bevan Circle of the Euler Triangle of the Euler Triangle.

The Nine-Point Circle of the Circum-Incentral Triangle is congruent to the Bevan Circle of the Feuerbach Triangle of the Euler Triangle.

The Nine-Point Circle of the Circum-Incentral Triangle is congruent to the Bevan Circle of the Euler Triangle of the Feuerbach Triangle.

The Nine-Point Circle of the Circum-Incentral Triangle is congruent to the Bevan Circle of the Feuerbach Triangle of the Feuerbach Triangle.

The Nine-Point Circle of the Circum-Incentral Triangle is congruent to the Circumcircle of the Euler Triangle of the Circumcevian Triangle of the Skordev Point.

The Nine-Point Circle of the Circum-Incentral Triangle is congruent to the Circumcircle of the Feuerbach Triangle of the Circumcevian Triangle of the Skordev Point.

The Nine-Point Circle of the Circum-Incentral Triangle is congruent to the Circumcircle of the Euler Triangle of the Circumcevian Triangle of the Dimovski Point.

The Nine-Point Circle of the Circum-Incentral Triangle is congruent to the Circumcircle of the Feuerbach Triangle of the Circumcevian Triangle of the Dimovski Point.

The Nine-Point Circle of the Circum-Incentral Triangle is congruent to the Circumcircle of the Euler Triangle of the Circumcevian Triangle of the Stanilov Point.

The Nine-Point Circle of the Circum-Incentral Triangle is congruent to the Circumcircle of the Feuerbach Triangle of the Circumcevian Triangle of the Stanilov Point.

The Nine-Point Circle of the Circum-Incentral Triangle is congruent to the Inverse of the Apollonius Circle in the Radical Circle of the Excircles.

The Spieker Circle of the Circum-Incentral Triangle is congruent to the Nine-Point Circle of the Intangents Triangle of the Intouch Triangle.

The Spieker Circle of the Circum-Incentral Triangle is congruent to the Incircle of the Euler Triangle of the Circum-Incentral Triangle.

The Spieker Circle of the Circum-Incentral Triangle is congruent to the Spieker Circle of the Intangents Triangle of the Circum-Incentral Triangle.

The Spieker Circle of the Circum-Incentral Triangle is congruent to the Nine-Point Circle of the Mid-Arc Triangle of the Circum-Incentral Triangle.

The Bevan Circle of the Circum-Incentral Triangle is congruent to the Bevan Circle.

The Bevan Circle of the Circum-Incentral Triangle is congruent to the Circumcircle of the Anticomplementary Triangle.

The Bevan Circle of the Circum-Incentral Triangle is congruent to the Bevan Circle of the Feuerbach Triangle of the Excentral Triangle.

The Bevan Circle of the Circum-Incentral Triangle is congruent to the Bevan Circle of the Euler Triangle of the Anticomplementary Triangle.

The Bevan Circle of the Circum-Incentral Triangle is congruent to the Bevan Circle of the Feuerbach Triangle of the Anticomplementary Triangle.

The Brocard Circle of the Circum-Incentral Triangle is congruent to the Nine-Point Circle of the First Brocard Triangle of the Excentral Triangle.

The Brocard Circle of the Circum-Incentral Triangle is congruent to the Nine-Point Circle of the Second Brocard Triangle of the Excentral Triangle.

The Orthocentroidal Circle of the Circum-Incentral Triangle is congruent to the Nine-Point Circle of the Fourth Brocard Triangle of the Excentral Triangle.