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Euclid: Elementa
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PROPOSITION 14. 
THEOR. 13. PROPOS. 14. 
第十四題 
In a circle equal straight lines are equally distant from the centre, and those which are equally distant from the centre are equal to one another. 
IN circulo æquales rectæ lineæ æqualiter distant a centro. Et quæ æqualiter distant a centro, æquales sunt inter se. 
二支
圜內兩直線等。卽距心之遠近等。距心之遠近等。卽兩直線等。 
Let ABDC be a circle, and let AB, CD be equal straight lines in it;  I say that AB, CD are equally distant from the centre. 
   
   
For let the centre of the circle ABDC be taken [III. 1], and let it be E; from E let EF, EG be drawn perpendicular to AB, CD, and let AE, EC be joined. 
 
 
Then, since a straight line EF through the centre cuts a straight line AB not through the centre at right angles, it also bisects it. [III. 3]  Therefore AF is equal to FB;  therefore AB is double of AF.  For the same reason CD is also double of CG;  and AB is equal to CD;  therefore AF is also equal to CG.  And, since AE is equal to EC,  the square on AE is also equal to the square on EC.  But the squares on AF, EF are equal to the square on AE,  for the angle at F is right;  and the squares on EG, GC are equal to the square on EC,  for the angle at G is right; [I. 47]  therefore the squares on AF, FE are equal to the squares on CG, GE,  of which the square on AF is equal to the square on CG,  for AF is equal to CG;  therefore the square on FE which remains is equal to the square on EG,  therefore EF is equal to EG.  But in a circle straight lines are said to be equally distant from the centre when the perpendiculars drawn to them from the centre are equal; [III. Def. 4]  therefore AB, CD are equally distant from the centre. 
                                     
                                     
Next, let the straight lines AB, CD be equally distant from the centre; that is, let EF be equal to EG.  I say that AB is also equal to CD. 
   
   
For, with the same construction, we can prove, similarly, that AB is double of AF, and CD of CG.  And, since AE is equal to CE, the square on AE is equal to the square on CE.  But the squares on EF, FA are equal to the square on AE,  and the squares on EG, GC equal to the square on CE. [I. 47]  Therefore the squares on EF, FA are equal to the squares on EG, GC,  of which the square on EF is equal to the square on EG,  for EF is equal to EG;  therefore the square on AF which remains is equal to the square on CG;  therefore AF is equal to CG.  And AB is double of AF, and CD double of CG;  therefore AB is equal to CD. 
                     
                     
Therefore etc.  Q. E. D. 
   
   
 
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