Arcs And Chords

In Figure 1 , circle O has radii OA, OB, OC and OD If chords AB and CD are of equal length, it can be shown that Δ AOB ≅ Δ DOC. This would make m ∠1 = m ∠2, which in turn would make m = m . This is stated as a theorem.

Arcs And Chords
In Figure 1 , circle O has radii OA, OB, OC and OD If chords AB and CD are of equal length, it can be shown that Δ AOB ≅ Δ DOC. This would make m ∠1 = m ∠2, which in turn would make m = m . This is stated as a theorem.





Figure 1
A circle with four radii and two chords drawn.


Theorem 78: In a circle, if two chords are equal in measure, then their corresponding minor arcs are equal in measure.
The converse of this theorem is also true.
Theorem 79: In a circle, if two minor arcs are equal in measure, then their corresponding chords are equal in measure.
Example 1: Use Figure 2 to determine the following. (a) If AB = CD, and = 60°, find m CD. (b) If m = and EF = 8, find GH.





Figure 2
The relationship between equality of the measures of (nondiameter) chords and equality of the measures of their corresponding minor arcs.


m = 60° (Theorem 78)
GH = 8 (Theorem 79)
Some additional theorems about chords in a circle are presented below without explanation. These theorems can be used to solve many types of problems.
Theorem 80: If a diameter is perpendicular to a chord, then it bisects the chord and its arcs.
In Figure 3 , UT, diameter QS is perpendicular to chord QS By Theorem 80, QR = RS, m = m , and m = m .





Figure 3
A diameter that is perpendicular to a chord.


Theorem 81: In a circle, if two chords are equal in measure, then they are equidistant from the center.
In Figure 4 , if AB = CD, then by Theorem 81, OX = OY.





Figure 4
In a circle, the relationship between two chords being equal in measure and being equidistant from the center.


Theorem 82: In a circle, if two chords are equidistant from the center of a circle, then the two chords are equal in measure.
In Figure 4 , if OX = OY, then by Theorem 82, AB = CD.
Example 2: Use Figure 5 to find x.





Figure 5
A circle with two minor arcs equal in measure.


Example 3: Use Figure 6 , in which m = 115°, m = 115°, and BD = 10, to find AC.





Figure 6
A circle with two minor arcs equal in measure.


Example 4: Use Figure 7 , in which AB = 10, OA = 13, and m ∠ AOB = 55°, to find OM, m and m .





Figure 7
A circle with a diameter perpendicular to a chord.


So, ST ⊥ AB, and ST is a diameter. Theorem 80 says that AM = BM. Since AB = 10, then AM = 5. Now consider right triangle AMO. Since OA = 13 and AM = 5, OM can be found by using the Pythagorean Theorem .





Also, Theorem 80 says that m = m and m = m . Since m ∠ AOB = 55°, that would make m = 55° and m = 305°. Therefore, m = 27 ½ and m = 152 ½°.
Example 5: Use Figure 8 , in which AB = 8, CD = 8, and OA = 5, to find ON.





Figure 8
A circle with two chords equal in measure.


By Theorem 81, ON = OM. By Theorem 80, AM = MB, so AM = 4. OM can now be found by the use of the Pythagorean Theorem or by recognizing a Pythagorean triple. In either case, OM = 3. Therefore, ON = 3.
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