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With the plane, one can make rough wood true, smooth and beautiful. The name plane, perhaps, comes from the work it does, for it is used to smooth or reduce wood to a true plane.

Circular Plane

With the plane, one can make rough wood true, smooth and beautiful. The name plane, perhaps, comes from…

The skeleton of a horse. Axial Skeleton. The Skull. Cranial Bones: a, occipital, 1; b, wormian, 1; c, parietal, 2; d, frontal, 2; e, temporal, 2; sphenoid, 1; ethmoid, 1; auditory ossicles, 8. Facial bones: h, nasal, 2; g, lachrymal, 2; f, malar, 2; i, superior maxilla, 2; k, premaxila, 2; palatine, 2; pterygoid, 2; vomer, 1; tubinals, 4; l, inferior maxilla; 1; hyoid (segments), 5. Teeth: m, incisors, 12; n, canines, 4; o, molars, 24. The trunk: p-v, cervical vertebrae, 7; w, dorsal vertebrae, 18; x, lumbar vertebrae, 6; y, sacrum, 1; z, coccygeal vertebrae (variable), 18, d, d, ribs, 36; sternum (6-7 sternebrae), 7; *,coastal cartilages. Appendicular Skeleton. Pectoral Limb: e', scapula, 2; f', humerus, 2; g', radius, 2; h', ulna, 2. Carpus-i', trapesium, 2; k', cuneiform, 2; l', lunar, 2; m', scaphoid, 2; n', unciform, 2; o', magnum, 2; p', trapezoid, 2; q', pisiform, 2. Metacarpus-r', large bone, 2; s', small bone, 4. Digits- u', proximal phalanges, 2; v, median phalanges; w', distil phalanges, 2; t', large sesamoids, 4; small sesamoids, 2. Pelvic Limbs: Pelvis- b', ilium, 2; d' ischium, 2; c', pubis, 2. The limb- y', femur, 2; z', patella, 2; a', tibia, 2; b', fibula, 2. Tarsus- c', calcaneum, 2; d', astragalus, 2; e'. cuboid, 2; f', cuneiforme magnum, 2; g', cuneiforme medium, 2; h", cuneiforme parvum, 2. Metatarsus: large bone, 2; small bone, 4. Digit: proximal phalanges, 2; median phalanges, 2; distal phalanges, 2; large sesamoids, 4; small sesamoids, 2.

Skeleton of a Horse

The skeleton of a horse. Axial Skeleton. The Skull. Cranial Bones: a, occipital, 1; b, wormian, 1; c,…

The skeleton of a horse. Showing its relation to the contour of the animal, viewed laterally. Labels: A, temporal fossa; B, inferior maxilla; C, atlas; D, dentata; E, cervical vertebrae; F, dorsal vertebrae; G, lumbar vertebrae; H, sacral vertebrae; I, coccygeal vertebrae; J, scapula; K, humerus; L, radius; L, ulna; M, carpus; N, trapezium; O, metacarpus; P, b. os suffraginis; Q, c. sesamoids; R, d. os coronae; S, e. os pedis; T, ribs; U., ilum; V, femur; X, patella; Y, tibia; y., Fibula; Z, tarsus; a, metatarsus; f, ligamentum nuchae, funicular portion; f' lamellar portion; 1, zygoma; 2, orbital fossa; 3, nasal peak; 4, incisor teeth; 4', canine teeth; 5, molar teeth; 6, external humeral trochanter; 7, scapular fossae; 8, coracoid apophysis; 9, cartilage of prolongation; 10, deltoid ridge, and external tuberosity; 11, olecranon; 12, costal cartilage; 13, anterior iliac spine; 14, ischium; 15, trochanter major; 16, trochanter minor; 18, anterior tibial tuberosity; 19, calcaneum; 20, small metacarpal and metatarsal or splint bones.

Skeleton of a Horse

The skeleton of a horse. Showing its relation to the contour of the animal, viewed laterally. Labels:…

Front aspect of the right carpus of a horse. Labels: 1, cuneiform; 2, lunar; 3, scaphoid; 4, trapezium; 5, unciform; 6, magnum; 7, trapezoid; 8, small metacarpals, the large one lying between and before them. The uppermost bone is the distal end of the radius.

Carpus of a Horse

Front aspect of the right carpus of a horse. Labels: 1, cuneiform; 2, lunar; 3, scaphoid; 4, trapezium;…

External view of bones of right carpus, metacarpus, and digit of a horse. 1, distal end of radius; 2, groove for extensor tendons; 3, scaphoid; 4, lunar; 5, cuneiform;6, trapezium; 7, magnum; 8, unciform; 9, great metacarpal; 10, external small metacarpal (splint); 11, sesamoids; 12, proximal phalanx; 13, median phalanx; 5, distal phalanx; 16, basilar process.

Horse Leg

External view of bones of right carpus, metacarpus, and digit of a horse. 1, distal end of radius; 2,…

The skeleton of an ox. Axial Skeleton. The skull. Cranial Bones- occipital, 1: b, parietal, 2; a, frontal, 2; c, temporal, 2; sphenoid, 1; ethmoid, 1; auditory ossicles, 8. Facial Bones- h, nasal, 2; e, lachrymal, 2; d, malar, 2; f, maxilla, 2; g, premaxilla, 1; i, inferior maxilla, 2; palatine, 2; pterygoid, 2; vomer, 1; turbinals, 4; hyoid series, 7. Teeth: incisors, 6; canines, 2; molars, 24. The trunk- k, cervical vertebrae, 7; l, dorsal vertebrae, 13; m, lumbar vertebrae, 6; n, sacrum ( five segments), 1; o, coccygal vertebrae (variable), 20; p, ribs, 26; * sternum (seven sternebrae), 1. Appendicular skeleton. Pectoral limb. t, scapula, 2; u, humerus, 2; v, radius, 2; w, ulna, 2. Carpus- x, trapezium, 2; y, cuneiform, 2; z, lunar; a', scaphoid, 2; b', unciform, 2; c', magnum, 2. Metacarpus: d', large bone, 2; e', small bone, 4; f', large sesamoids, 8. Digit- g', proximal phalanges, 4; h', median phalages, 4; i', distal phalanges, 4; k', small sesamoids, 4. Pelvic Limb. Pelvis- q, ilium, 2; s, ischium, 2; r, pubis, 2. The limb- l', femur, 2; m', patella, 2; n', tibia, 2. Tarsus-o', maleolar, 2; p', calcaneum, 2; q', astragalus, 2; r', cubocuneiform, 2; s', cuneiforme medium, 2; t', cuneiforme parvum, 2. Metatarsus: large bone, 2; u', small bone, 2. Large sesamoids, 8. Digit: proximal phalanges, 4; median phalanges, 4; distal phalanges, 4; small sesamoids, 4. Visceral skeleton. Bones of the heart, 2. The separate bones of the ruminant skeleton, as here considered are 251.

Ox Skeleton

The skeleton of an ox. Axial Skeleton. The skull. Cranial Bones- occipital, 1: b, parietal, 2; a, frontal,…

Skeleton of the hog. Axial skeleton. The skull. Cranial bones- a, occipital, 1; b, parietal, 2; d, frontal, 2; c, temporal, 2; sphenoid, 1; ethmoid, 1; auditory ossicles, 8. Facial Bones- g, nasal, 2; h, os rostri, 1; f, lachrymal, 2; e, malar, 2; i, maxilla, 2; k, premaxilla, 2; l, inferior maxilla, 1; palatine, 2; 2, pterygoid, 2; vomer, 1; turbinals, 4; hyoid series, 5. Teeth: incisors, 12; canines, 4; molars, 28. The trunk- m, cervicle vertebre (variable), 18; r, ribs, 28; * sternum (seven sternebrae), 1. Appendicular Skeleton. Pectoral Limb. v, scapula, 2; w, humerus, 2; x, radius, 2; y, ulna, 2. carpus: z, trapezium, 2; a', cuneiform, 2; b', lunar, 2; c', scaphoid, 2; d', unciform, 2; e', magnum, 2; f', trapezoid, 2; g', pisiform, phalanges, 8; l', distal phalanges, 8; l", small sesamoids, 8. Pelvic Limb. Pelvis: s, ilium, 2; t, pubis, 2; u, ischium, 2. The limb-m', femur, 2; n', patella, 2; o', tibia, 2; p' fibula, 2. Tarsus- q' calcaneum, 3; r', astragalus, 2; s', cuboid, 2; t', cuneiforme magnum, 2; u', ecto-cuneiforme, 2; v' w', meso and endo cuneiformes, 4. Metatatarsus: large bones, 8; x', small bones 2; y', large sesamoids, 16. Digit: proximal phalanges, 8; median phalanges, 8; distal phalanges, 8; small sesamoids, 8. Visceral Skeleton- None. The separate bones of the skeleton of the hog, as here considered, are 234.

Skeleton of a Hog

Skeleton of the hog. Axial skeleton. The skull. Cranial bones- a, occipital, 1; b, parietal, 2; d, frontal,…

The skeleton of the dog. Axial skeleton. The skull. Cranial bones- a, occipital, 1; b, parietal, 2; d, frontal, 2; c, temporal, 2; sphenoid, 1; ethmoid, 2; auditory ossicles, 8. Facial Bones- f, nasal, 2; e, lachrymal, 2; d, malar, 2; h, maxilla, 2; g, premaxilla, 2. Teeth: incisors, 12; canines, 4; molars, 26. The trunk- l, cervical vertebrae, 7; m, dorsal vertebrea, 13; n, lumbar vertebrae, 7; o, sacrum (three segments), 1; p, coccygeal phalanges (variable), 20; t, ribs, 26; * sternum (eight sternebrae), 1. Appendicular Skeleton. Pectoral Limb. u, scapula, 2; v, humerus, 2; w, radius, 2; x, ulna. Carpus: y, trapezium, 2; z cuneiform, 2; a', scaphoid, 2; b', unciform, 2; c', magnum, 2; d', trapezoid, 2; e', pisiform,2; metacarpal bones, 10; h', anterior sesamoids, 10; g' posterior sesamoids, 20. Digits- i' proximal phalanges, 10; k', median phalanges, 8; l', distal phalanges, 10; small sesamoids wanting. Pelvic Limb. Pelvis: q, ilium, 2; r, pubis, 2; s, ischium, 2. The limb-m', femur, 2; o', fabellae, 4; n', patella, 2; q', tibia, 2; p', tibial sesamoid, 2; r', fibula, 2. Tarsus: s', calcaneum, 2; t', astragalus, 2; u', cuboid, 2; v', superior cuneiform, 2; w', ectocuneiforme, 2; x', mesocuneiforme, 2; y', edocuneiforme, 2. Metatarsus: large bones, 8; z',small bones, 2; anterior sesamoids, 8; posterior sesamoids, 16. Digit: proximal phalanges, 8; median phalanges, 8; distal phalanges, 8; small sesamoids wanting. Visceral Skeleton. Os Penis, 1; Rudimentary clavicle (inconstant), 2. The bones of the Carnivora Skeleton, thus considered, are 345.

Skeleton of a Dog

The skeleton of the dog. Axial skeleton. The skull. Cranial bones- a, occipital, 1; b, parietal, 2;…

"In geometry: (a) A plane figure inclosed between the arc of a circle, ellipse, or other central curve and two radii to its extremities from the center. Thus, in the figure, CDB is a sector of a circle." -Whitney, 1911

Sector

"In geometry: (a) A plane figure inclosed between the arc of a circle, ellipse, or other central curve…

The main entrance through the circuit wall was made grand by the best known feature of Mycenae, the Lion Gate, through which passed a stepped ramp leading past circle A and up to the palace. The Lion Gate was built in the form of a 'Relieving Triangle' to support the weight of the stones. Two lionesses flank the central column that represents a god or goddess.

Lion Gate at Mycenæ

The main entrance through the circuit wall was made grand by the best known feature of Mycenae, the…

An illustration depicting the formation of circles of diffusion. "From point A luminous rays enter the eye in the form of a cone, the kind of which will depend on the pupil. Thus it may be circular, or oval, or ever triangular. If the pencil is focused in front of the retina, as at d, or behind it as it as at f, or, in other words, if the retina of being at F; be in the position G or H, there will be a luminous circle or a luminous triangular space, and many elements of the retina will be affected. The size of these diffusion circles depends on the distance from the retina of the point where the rays are focused: the greater the distance, the more extended will be the diffusion circle" (Britannica, 132).

Formation of Circles of Diffusion

An illustration depicting the formation of circles of diffusion. "From point A luminous rays enter the…

Circular and polygonal plans appear in a number of Syrian examples of the early sixth century. Their most striking feature is the inscribing of the circle of polygon in a square which forms the exterior outline, and the use of four niches to fill out the corners. This occurs at Kelat Seman, a small double church, perhaps the tomb and chapel of a martyr; in the cathedral at Bozrah, and in the small domical church of St. George at Ezra. These were probably the prototypes of many Byzantine churches like St. Sergius at Constantinople, and San Vitale at Ravenna.

Cathedral at Bosra

Circular and polygonal plans appear in a number of Syrian examples of the early sixth century. Their…

Sexpartite vault (or six-part vault), in architecture, is a rib vault divided into six bays by two diagonal ribs and three transverse ribs. Legend: a, transverse ribs (doubleaux); b, wall-ribs (formerets); c, groin-ribs (diagonaux). All the ribs are semi-circle.

Sexpartite Ribbed Vault, Showing Two Compartments with the Fillings Complete

Sexpartite vault (or six-part vault), in architecture, is a rib vault divided into six bays by two diagonal…

"Inside Clinch -- The end is bent close round the standing part till it forms a circle and a half, when it is securely seized at a, b, and c, thus making a running eye; when taut round anything it jams the end. It is used for securing hemp cables to anchors, the standing parts of topsail sheets, and for many other purposes. If the eye were formed outside the bight an outside clinch would be made, depending entirely on the seizings, but more ready for slipping." -Britannica, 1910

Inside Clinch

"Inside Clinch -- The end is bent close round the standing part till it forms a circle and a half, when…

The skeleton of a bird. Labels: a, radius and ulna; b, dorsal vertebrae; c, sacrum and pelvis; g, ploughshare bone; h, tibia; i, metatarsus; d, furculum; e, carina of the sternum; f, distal phalanx of pectoral limb.

Skeleton of a Bird

The skeleton of a bird. Labels: a, radius and ulna; b, dorsal vertebrae; c, sacrum and pelvis; g, ploughshare…

"A gastropod of the family Ovulidae and genus Radius, as R. volva, of long fusiform shape, the ends of the lips being greatly drawn out; so called from the resemblance to a weavers' shuttle." -Whitney, 1911

Shuttle Shell

"A gastropod of the family Ovulidae and genus Radius, as R. volva, of long fusiform shape, the ends…

The Fairbairn steam crane is a type of harbourside crane of an 'improved design', patented in 1850 by Sir William Fairbairn. The crane's innovation was in the use of a curved jib, made of riveted wrought iron platework to form a square-section box girder. This could reach further into the hold of a ship, clear of the deep gunwales alongside the quay. A typical size for these cranes would be able to lift 35 tons at a radius of 35 feet (11 m). They were powered by self-contained steam engines, with both boiler and engine mounted on-board the crane.

Fairbairn Steam Crane

The Fairbairn steam crane is a type of harbourside crane of an 'improved design', patented in 1850 by…

"Ground Plan of the Colosseum at Rome, with representation of the Tiers of Seats, and of the Substructure. The shape of the amphitheatre was borrowed from that of the theatre. Since no stage was necessary, and with a view to securing as many rows of seats as possible, the semicircular form of the theatre was done away with, and the whole became a circle, or rather an ellipse, which was afterwards the recognized shape for all buildings of this nature, whether at Rome or in the provinces."

Ground Plan of the Colosseum

"Ground Plan of the Colosseum at Rome, with representation of the Tiers of Seats, and of the Substructure.…

"In geometry, an angle connected with an ellipse and defined as ... angle BCL, reckoned from one determinate end, B, of the transverse axis, called the eccentric angle of the point H." -Whitney, 1911

Eccentric Angle

"In geometry, an angle connected with an ellipse and defined as ... angle BCL, reckoned from one determinate…

"Skeleton and Outline of African Elephant (Elephas or Loxodon africanus). fr, frontal; ma, mandible; ma', malar; fi, "finger" at end of trunk; C, cervical vertebrae; D, dorsal vertebrae; D, dorsal vertebrae; pe, pelvis; sc, scapula; st, sternum; hu, humerus; ul, ulna; ra, radius; mc, metacarpus; fe, femur; pat, patella; tib, tibia; fib, fibula; met, metatarsus." -Whitney, 1911

African Elephant Skeleton

"Skeleton and Outline of African Elephant (Elephas or Loxodon africanus). fr, frontal; ma, mandible;…

"Anterior View, Distal End, of Right Humerus of a Man. H, humerus; epc, epicondyle, or external supracondyloid protuberance; ept, epitrochlea, or internal supracondyloid protuberance; cp, capitellum, or convex articular suface for head of radius; tr, trochlea, or transversely concave articular surface for the ulna; epc and cp are together the ectocondyle, and ept and tr are together the entocondyle." -Whitney, 1911

Humerus

"Anterior View, Distal End, of Right Humerus of a Man. H, humerus; epc, epicondyle, or external supracondyloid…

"In geometry, a curve generated by the motion of a point on the circumference of a circle which rolls upon the convex side of a fixed circle." -Whitney, 1911

Epicycloid

"In geometry, a curve generated by the motion of a point on the circumference of a circle which rolls…

"Epicycloidal wheel, a wheel or ring fixed to a framework, toothed on its inner side, and having in gear with it another toothed wheel, of half the diameter of the first, fitted so as to revolve about the center of the latter. It is used for converting circular into alternate motion, or alternate into circular." -Whitney, 1911

Epicycloidal Wheel

"Epicycloidal wheel, a wheel or ring fixed to a framework, toothed on its inner side, and having in…

"Skeleton of Horse (Equus caballus). fr, frontal bone; C, cervical vertebrae; D, dorsal vertebrae; L, lumbar vertebrae; cd, caudal vertebrae; sc, scapula; pe, pelvis; ma, mandible; hu, humerus; ra, radius; cp, carpus; mc, metacarpus; fe, femur; tib, tibia; ca, calcaneum; tar, tarsus; mt, metatarsus; p, phalanges." -Whitney, 1911

Horse Skeleton

"Skeleton of Horse (Equus caballus). fr, frontal bone; C, cervical vertebrae; D, dorsal vertebrae; L,…

Illustration showing complex numbers with a modulus equal to unity. The lines representing these numbers terminate in points lying on the circumference of a circle whose radius is unity.

Geometric Inspection of Complex Numbers

Illustration showing complex numbers with a modulus equal to unity. The lines representing these numbers…

Illustration of an angle &alpha with the vertex at the center, O, of a circle with radius OB. AC and BD are perpendicular to OB and join B with C. The are of the triangle OBC is less than the are of the sector OBC, and the sector OBC is less than the triangle OBD.

Triangles and Sectors in Quadrant I

Illustration of an angle &alpha with the vertex at the center, O, of a circle with radius OB. AC and…

Illustration of a right spherical triangle and the five circular parts placed in the sectors of a circle in the order in which they occur in the triangle. "The ten formulas used in the solution of spherical right triangles can be expressed by means of two rules, known as Napier's rules of circular parts."

Napier's Right Spherical Triangle

Illustration of a right spherical triangle and the five circular parts placed in the sectors of a circle…

The Italian Renaissance lunette panel is a semi-circle design found on a door-head.

Italian Renaissance Lunette Panel

The Italian Renaissance lunette panel is a semi-circle design found on a door-head.

The Arabian lunette panel is a semi-circle design found on a door-head.

Arabian Lunette Panel

The Arabian lunette panel is a semi-circle design found on a door-head.

Wrought-iron grill lunette panel. Its a semi-circle design typically found on a door-head.

Wrought-Iron Grill Lunette Panel

Wrought-iron grill lunette panel. Its a semi-circle design typically found on a door-head.

The mosaic circle pattern is inlaid pieces of stone, wood, glass, leather or straw to make a picture or pattern. This design is found in a cathedral in Monreale, Sicily, Italy.

Mosaic Square Pattern

The mosaic circle pattern is inlaid pieces of stone, wood, glass, leather or straw to make a picture…

The Arabian mosaic circle pattern is inlaid pieces of stucco on stone.

Arabian Mosaic Square Pattern

The Arabian mosaic circle pattern is inlaid pieces of stucco on stone.

Roman mosaic pattern of interlocking circles.

Roman Mosaic Circle Pattern

Roman mosaic pattern of interlocking circles.

This marble mosaic circle pattern is inlaid pieces of glass found in the windows of a cathedral in Florence, Italy.

Marble Mosaic Circle Pattern

This marble mosaic circle pattern is inlaid pieces of glass found in the windows of a cathedral in Florence,…

This geometrical circle pattern found in the St. Croce church in Florence, Italy.

Geometrical Pattern

This geometrical circle pattern found in the St. Croce church in Florence, Italy.

The marble mosaic circle pattern is inlaid pieces of stone, wood, glass, leather or straw to make a picture or pattern. This design is found in the San Vitale church in Ravenna, Italy.

Marble Mosaic Circle Pattern

The marble mosaic circle pattern is inlaid pieces of stone, wood, glass, leather or straw to make a…

The Arabian mosaic circle pattern is made out of stucco on stone.

Arabian Mosaic Stucco on Stone

The Arabian mosaic circle pattern is made out of stucco on stone.

The Moorish mosaic circle pattern is made out of stone and glazed terracotta. This design is found in the Alhambra palace in Granada, Spain.

Moorish Mosaic Pattern

The Moorish mosaic circle pattern is made out of stone and glazed terracotta. This design is found in…

This medieval tile pattern is a stained glass design. It the oldest process of fitting together pieces of colored glass in a mosaic style.

Medieval Tile Pattern

This medieval tile pattern is a stained glass design. It the oldest process of fitting together pieces…

This medieval tile circle pattern is a stained glass design. It the oldest process of fitting together pieces of colored glass in a mosaic style.

Medieval Tile Pattern

This medieval tile circle pattern is a stained glass design. It the oldest process of fitting together…

This Medieval Tile circle pattern is a stained glass design. It the oldest process of fitting together pieces of colored glass in a mosaic style.

Medieval Tile Pattern

This Medieval Tile circle pattern is a stained glass design. It the oldest process of fitting together…

This Medieval Tile circle pattern is a stained glass design. It the oldest process of fitting together pieces of colored glass in a mosaic style.

Medieval Tile Circle Pattern

This Medieval Tile circle pattern is a stained glass design. It the oldest process of fitting together…

This medieval tile circle pattern is a stained glass design. It the oldest process of fitting together pieces of colored glass in a mosaic style.

Medieval Tile Circle Pattern

This medieval tile circle pattern is a stained glass design. It the oldest process of fitting together…

This medieval tile circle pattern is a stained glass design. It the oldest process of fitting together pieces of colored glass in a mosaic style.

Medieval Tile Circle Pattern

This medieval tile circle pattern is a stained glass design. It the oldest process of fitting together…

Illustration used to show how to find the center when given an arc and its radius.

Construction Of Center

Illustration used to show how to find the center when given an arc and its radius.

Illustration used to show how to pass a circumference through any three points not in the same straight line.

Construction Of Circumference

Illustration used to show how to pass a circumference through any three points not in the same straight…

Illustration used to show how to inscribe a square in a given circle.

Construction Of Square Inscribed In Circle

Illustration used to show how to inscribe a square in a given circle.

Illustration used to show how to inscribe a regular hexagon in a given circle.

Construction Of Hexagon Inscribed In Circle

Illustration used to show how to inscribe a regular hexagon in a given circle.

Illustration used to show how to inscribe a regular pentagon in a given circle.

Construction Of Pentagon Inscribed In Circle

Illustration used to show how to inscribe a regular pentagon in a given circle.

Illustration used to show how to inscribe a regular octagon in a given circle.

Construction Of Octagon Inscribed In Circle

Illustration used to show how to inscribe a regular octagon in a given circle.

Illustration used to show how to inscribe any regular polygon in a given circle.

Construction Of Polygon Inscribed In Circle

Illustration used to show how to inscribe any regular polygon in a given circle.

Illustration used to show how to "find an arc of a circle having a known radius, which shall be equal in length to a given straight line."

Construction Of Arc

Illustration used to show how to "find an arc of a circle having a known radius, which shall be equal…

Illustration used to show how to find a straight line of the same length as a given arc of a circle.

Construction Of Line Equal To Arc

Illustration used to show how to find a straight line of the same length as a given arc of a circle.

Illustration of a circle inside of a rectangle. The two figures have the same center.

Circle Inside Rectangle

Illustration of a circle inside of a rectangle. The two figures have the same center.

Illustration of a circle inside of 2 concentric rectangles whose vertices are connected by line segments.

Circle Inside Concentric Rectangles

Illustration of a circle inside of 2 concentric rectangles whose vertices are connected by line segments.

Illustration of a cylinder cut by a plane making an angle of 57° with the base.

Plane Intersecting A Cylinder

Illustration of a cylinder cut by a plane making an angle of 57° with the base.

Illustration of the development of a cone along a stretchout described with the radius OB.

Development Of Cone

Illustration of the development of a cone along a stretchout described with the radius OB.

Illustration of an irregular solid form made up of triangular surfaces unfolded on a flat surface. A is the center and the radius is equal to AB.

Irregular Solid With Triangular Surfaces

Illustration of an irregular solid form made up of triangular surfaces unfolded on a flat surface. A…

"Eye-splice. A sort of eye or circle formed by splicing the end of a rope into itself. a, one strand stuck; b, all three strands stuck once; c, all three strands stuck three times (finished splicing)." -Whitney, 1911

Eye Splice in Three Steps

"Eye-splice. A sort of eye or circle formed by splicing the end of a rope into itself. a, one strand…

"One of an order of beings, the life-principles or geniuses or tutelary spirits of living beings, believed in and reverenced by the ancient Persians, adherents of the Zoroastrian religion. (Also) a name given ... to a symbol seen on monuments of ancient Persian origin, representing a winged circle, with or without a manlike figure in it, hovering over the head of a king or other person, and believed by some to represent his tutelary spirit." -Whitney, 1911

Feloher from Nineveh

"One of an order of beings, the life-principles or geniuses or tutelary spirits of living beings, believed…