Incircle of the Anticomplementary Triangle = Circumcircle of the Mid-Arc Triangle of the Anticomplementary Triangle.

Nine-Point Circle of the Anticomplementary Triangle = Circumcircle.

Nine-Point Circle of the Anticomplementary Triangle = Nine-Point Circle of the Excentral Triangle.

Nine-Point Circle of the Anticomplementary Triangle = Circumcircle of the Euler Triangle of the Excentral Triangle.

Nine-Point Circle of the Anticomplementary Triangle = Circumcircle of the Feuerbach Triangle of the Excentral Triangle.

Nine-Point Circle of the Anticomplementary Triangle = Circumcircle of the Euler Triangle of the Anticomplementary Triangle.

Nine-Point Circle of the Anticomplementary Triangle = Circumcircle of the Feuerbach Triangle of the Anticomplementary Triangle.

Spieker Circle of the Anticomplementary Triangle = Incircle.

Spieker Circle of the Anticomplementary Triangle = Circumcircle of the Intouch Triangle.

Spieker Circle of the Anticomplementary Triangle = Circumcircle of the Mid-Arc Triangle.

Brocard Circle of the Anticomplementary Triangle = Circumcircle of the First Brocard Triangle of the Anticomplementary Triangle.

Brocard Circle of the Anticomplementary Triangle = Circumcircle of the Second Brocard Triangle of the Anticomplementary Triangle.

Orthocentroidal Circle of the Anticomplementary Triangle = Circumcircle of the Fourth Brocard Triangle of the Anticomplementary Triangle.

The Incircle of the Anticomplementary Triangle is concentric to the Bevan Circle of the Yff Central Triangle of the Anticomplementary Triangle.

The Nine-Point Circle of the Anticomplementary Triangle is concentric to the Nine-Point Circle of the Fuhrmann Triangle of the Excentral Triangle.

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

The Spieker Circle of the Anticomplementary Triangle is concentric to the Radical Circle of the Excircles of the Anticomplementary Triangle.

The Spieker Circle of the Anticomplementary Triangle is concentric to the Bevan Circle of the Yff Central Triangle.

The Spieker Circle of the Anticomplementary Triangle is concentric to the Bevan Circle of the Euler Triangle of the Anticomplementary Triangle.

The Radical Circle of the Excircles of the Anticomplementary Triangle is concentric to the Incircle.

The Radical Circle of the Excircles of the Anticomplementary Triangle is concentric to the Circumcircle of the Intouch Triangle.

The Radical Circle of the Excircles of the Anticomplementary Triangle is concentric to the Spieker Circle of the Anticomplementary Triangle.

The Radical Circle of the Excircles of the Anticomplementary Triangle is concentric to the Circumcircle of the Mid-Arc Triangle.

The Radical Circle of the Excircles of the Anticomplementary Triangle is concentric to the Bevan Circle of the Yff Central Triangle.

The Radical Circle of the Excircles of the Anticomplementary Triangle is concentric to the Bevan Circle of the Euler Triangle of the Anticomplementary Triangle.

The Brocard Circle of the Anticomplementary Triangle is concentric to the Lemoine Circle of the Anticomplementary Triangle.

The Lemoine Circle of the Anticomplementary Triangle is concentric to the Brocard Circle of the Anticomplementary Triangle.

The Lemoine Circle of the Anticomplementary Triangle is concentric to the Circumcircle of the First Brocard Triangle of the Anticomplementary Triangle.

The Lemoine Circle of the Anticomplementary Triangle is concentric to the Circumcircle of the Second Brocard Triangle of the Anticomplementary Triangle.

The Incircle of the Anticomplementary Triangle is congruent to the Bevan Circle of the Intouch Triangle.

The Incircle of the Anticomplementary Triangle is congruent to the Bevan Circle of the Mid-Arc Triangle.

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

The Circumcircle of the Anticomplementary Triangle is congruent to the Bevan Circle of the Euler Triangle of the Excentral Triangle.

The Circumcircle of the Anticomplementary Triangle is congruent to the Bevan Circle of the Feuerbach Triangle of the Excentral Triangle.

The Circumcircle of the Anticomplementary Triangle is congruent to the Bevan Circle of the Euler Triangle of the Anticomplementary Triangle.

The Circumcircle of the Anticomplementary Triangle is congruent to the Bevan Circle of the Feuerbach Triangle of the Anticomplementary Triangle.

The Nine-Point Circle of the Anticomplementary Triangle is congruent to the Bevan Circle of the Medial Triangle.

The Nine-Point Circle of the Anticomplementary Triangle is congruent to the Bevan Circle of the Orthic Triangle.

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

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

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

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

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

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

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

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

The Nine-Point Circle of the Anticomplementary Triangle is congruent to the Bevan Circle of the Euler Triangle of the Circumcevian Triangle of the Skordev Point.

The Nine-Point Circle of the Anticomplementary Triangle is congruent to the Bevan Circle of the Feuerbach Triangle of the Circumcevian Triangle of the Skordev Point.

The Nine-Point Circle of the Anticomplementary Triangle is congruent to the Bevan Circle of the Euler Triangle of the Circumcevian Triangle of the Dimovski Point.

The Nine-Point Circle of the Anticomplementary Triangle is congruent to the Bevan Circle of the Feuerbach Triangle of the Circumcevian Triangle of the Dimovski Point.

The Nine-Point Circle of the Anticomplementary Triangle is congruent to the Bevan Circle of the Euler Triangle of the Circumcevian Triangle of the Stanilov Point.

The Nine-Point Circle of the Anticomplementary Triangle is congruent to the Bevan Circle of the Feuerbach Triangle of the Circumcevian Triangle of the Stanilov Point.

The Spieker Circle of the Anticomplementary Triangle is congruent to the Bevan Circle of the Mid-Arc Triangle of the Medial Triangle.

The Spieker Circle of the Anticomplementary Triangle is congruent to the Bevan Circle of the Euler Triangle of the Intouch Triangle.

The Spieker Circle of the Anticomplementary Triangle is congruent to the Bevan Circle of the Feuerbach Triangle of the Intouch Triangle.

The Spieker Circle of the Anticomplementary Triangle is congruent to the Incircle of the Euler Triangle of the Anticomplementary Triangle.

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

The Spieker Circle of the Anticomplementary Triangle is congruent to the Bevan Circle of the Mid-Arc Triangle of the Euler Triangle.

The Spieker Circle of the Anticomplementary Triangle is congruent to the Bevan Circle of the Euler Triangle of the Mid-Arc Triangle.

The Spieker Circle of the Anticomplementary Triangle is congruent to the Bevan Circle of the Feuerbach Triangle of the Mid-Arc Triangle.

The Bevan Circle of the Anticomplementary Triangle is congruent to the Bevan Circle of the Excentral Triangle.

The Apollonius Circle of the Anticomplementary Triangle is congruent to the Inverse of the Spieker Circle in the Radical Circle of the Excircles.

The Brocard Circle of the Anticomplementary Triangle is congruent to the Bevan Circle of the First Brocard Triangle.

The Brocard Circle of the Anticomplementary Triangle is congruent to the Bevan Circle of the Second Brocard Triangle.

The Orthocentroidal Circle of the Anticomplementary Triangle is congruent to the Bevan Circle of the Fourth Brocard Triangle.