 | Euclides, James Hamblin Smith - Geometry - 1872 - 376 pages
...in CE. COR. If CE be bisected in F, then F is the centre of the circle. PROPOSITION II. THEOREM. If any two points be taken in the circumference of a circle, the straight line, which joins them, must fall within the circle. Let A and B be any two pts. in the Oce of the 0 ABC. Then must the st.... | |
 | Euclides - 1872 - 102 pages
...in CE. COK. If CE be bisected in F, then F is the centre of the circle. PROPOSITION II. THEOREM. If any two points be taken in the circumference of a circle, the straight line, which joins them, mwt fall within the circle. Let A and 'B be any two pts. in the Oce of the © ABC. Then must the st.... | |
 | Henry Major - Student teachers - 1873 - 588 pages
...at right angles, the centre of the circle is in the straight line bisecting the other. II.. — If any two points be taken in the circumference of a...line which joins them shall fall within the circle. to B falls within C the The straight line from A circle ABC. If not, let it fall, if possible, without,... | |
 | Euclides - 1874 - 342 pages
...angles, the centre of the circle is in the line which bisects the other. PROPOSITION 2.— Theorem. If any two points be taken in the circumference of a...circle, and A, B, any two points in the circumference. Then the straight line drawn from A to B shall fall mthin the circle. IT Construction. For if AB do... | |
 | Edward Atkins - 1874 - 426 pages
...angles, the centre of the circle is in the line which bisects the other. Proposition 2. — Theorem. If any two points be taken in the circumference of a...fall within the circle. Let ABC be a circle, and A and B any two points in the circumference. The straight line drawn from A to B shall fall within the... | |
 | Edward Atkins - 1874 - 428 pages
...angles, the centre of the circle is in the line which bisects the other. Proposition 2. — Theorem. If any two points be taken in the circumference of a circle, the straight line which joins them shall faU within the circle. Let ABC be a circle, and A and B any two points in the circumference. The straight... | |
 | Edward Atkins - 1876 - 130 pages
...angles, the centre of the circle is in the line which bisects the other. Proposition 2. — Theorem. If any two points be taken in the circumference of a...fall within the circle. Let ABC be a circle, and A and B any two points in the circumference. The straight line drawn from A to B shall fall within the... | |
 | Robert Potts - Geometry - 1876 - 446 pages
...angles, the center of the circle is in the line •which bisects the other. PROPOSITION H. THEOREM. If any two points be taken in the circumference of a...which joins them shall fall within the circle. Let ABC\ie a circle, and A, £ any two points in the circumference. Then the straight line drawn from A... | |
 | Richard Wormell - 1876 - 268 pages
...To find the centre of a given circle. . . . . . . . . . . 132 2. If any two points be taken in ihe circumference of a circle, the straight line which joins them shall fall within the circle. .. .. .. ..97 4. If in a circle two chords cut one another which do not pass through the centre, they... | |
 | Euclides, James Hamblin Smith - Geometry - 1876 - 376 pages
...be bisected in F, then F is the centre of the, circle. PROPOSITION II. THEOREM. If any two points 6e taken in the circumference of a circle, the straight line, which joins them, must fall within the circle. f! Let, A and B be any two pts. in the Ooe of the © ABC. Then must the... | |
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Ir any two points be taken in the circumference of a circle, the straight line which joins them shall fall within the circle. Let ABC be a circle, and A, B any two points in the circumference ; the straight line drawn from A to B shall fall within the... 
