Proving that an inscribed angle is half of a central angle that subtends the same arc.
Getting started
Before we get to talking about the proof, let's make sure we understand a few fancy terms related to circles.
Here's a short matching activity to see if you can figure out the terms yourself:
Using the image, match the variables to the terms.
A circle with three points on it. The second point is less than ninety degrees from the first point. The third point is more than one hundred eighty degrees from the second point. An arc made by the first and second point is labeled alpha. The angle made by the first point, the center, and the second point make an angle labeled theta. The angle made by the first point, the third point, and the second point is labeled psi.
An angle is a
An angle is an
The rays of inscribed and central angles intercept part of the circumference of the circle. We call this part of the circumference
Nice work! We'll be using these terms through the rest of the article.
What we're about to prove
A circle with three points on it. The second point is less than ninety degrees from the first point. The third point is more than one hundred eighty degrees from the second point. An arc made by the first and second point is labeled alpha. The angle made by the first point, the center, and the second point make an angle measuring fifty degrees. The angle made by the first point, the third point, and the second point is measured twenty-five degrees.
We're about to prove that something cool happens when an inscribed angle
Proof overview
To prove
Case A | Case B | Case C |
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Case A has three points on the circle. The second point is less than ninety degrees clockwise from the first point. The third point is one hundred eighty degrees clockwise from the first point. The angle made by the first point, the center, and the second point is labeled theta. The angle made by the first point, the third point which passes through the center, and the second point is labeled psi. | In Case B, there are three points on the circle. The second point is more than ninety degrees clockwise from the first point. The third point is more than one hundred eighty degrees clockwise from the first point. The angle made by the first point, the center, and the second point is labeled theta. The angle made by the first point, the third point, and the second point is labeled psi. | In Case C there are three points on the circle. The second point is less than ninety degrees clockwise from the first point. The third point is less than one hundred eighty degrees clockwise from the first point. The angle made from the first point, the center, and the second point is labeled theta. The angle made from the first point, the third point, and the second point is labeled psi. |
Together, these cases account for all possible situations where an inscribed angle and a central angle intercept the same arc.
Case A: The diameter lies along one ray of the inscribed angle, .
Case A has three points on the circle. The second point is less than ninety degrees clockwise from the first point. The third point is one hundred eighty degrees clockwise from the first point. The angle made by the first point, the center, and the second point is labeled theta. The angle made by the first point, the third point which passes through the center, and the second point is labeled psi.
Step 1: Spot the isosceles triangle.
Three points A, C, and D are on the circle centered around point B. Point D is less than ninety degrees clockwise from the point A. The point C is one hundred eighty degrees clockwise from the point A. Line segment A C is a diameter. Line segment D C is a chord. Line segments B A, B C, and B D are radii that are a length of r units. The angle made by points A, B, and D are labeled theta. The angle made by points B C D is labeled psi. An angle made by points B D and C is labeled psi.
Segments
Step 2: Spot the straight angle.
Three points A, C, and D are on the circle centered around point B. Point D is less than ninety degrees clockwise from the point A. The point C is one hundred eighty degrees clockwise from the point A. Line segment A C is a diameter. Line segment D C is a chord. Line segments B A, B C, and B D are radii that are a length of r units. The angle made by points A, B, and D are labeled theta. The angle made by points B C D is labeled psi. An angle made by points B D and C is labeled psi. Angle C B D is labeled one hundred eighty degrees minus theta.
Angle
Step 3: Write an equation and solve for .
The interior angles of
Cool. We've completed our proof for Case A. Just two more cases left!
Case B: The diameter is between the rays of the inscribed angle, .
In Case B, there are three points on the circle. The second point is more than ninety degrees clockwise from the first point. The third point is more than one hundred eighty degrees clockwise from the first point. The angle made by the first point, the center, and the second point is labeled theta. The angle made by the first point, the third point, and the second point is labeled psi.
Step 1: Get clever and draw the diameter
Using the diameter, let's break
In Case B, there are three points on the circle. The second point is more than ninety degrees clockwise from the first point. The third point is more than one hundred eighty degrees clockwise from the first point. The angle made by the first point, the center, and the second point is labeled theta. The angle made by the first point, the third point, and the second point is labeled psi. A point is also on the circle to make a line segment that passes through the center to the third point as a diameter. Angle theta one is on the left and theta two is on the right of the diameter where theta was located. Angle psi one is on the left and angle psi two is on the right of the diameter located where psi was.
Step 2: Use what we learned from Case A to establish two equations.
In our new diagram, the diameter splits the circle into two halves. Each half has an inscribed angle with a ray on the diameter. This is the same situation as Case A, so we know that
and
because of what we learned in Case A.
Step 3: Add the equations.
Case B is complete. Just one case left!
Case C: The diameter is outside the rays of the inscribed angle.
In Case C there are three points on the circle. The second point is less than ninety degrees clockwise from the first point. The third point is less than one hundred eighty degrees clockwise from the first point. The angle made from the first point, the center, and the second point is labeled theta. The angle made from the first point, the third point, and the second point is labeled psi.
Step 1: Get clever and draw the diameter
Using the diameter, let's create two new angles:
There are three points on the circle. The second point is less than ninety degrees clockwise from the first point. The third point is less than one hundred eighty degrees clockwise from the first point. The angle made from the first point, the center, and the second point is labeled theta. The angle made from the first point, the third point, and the second point is labeled psi. A point is on the circle with a line segment connecting it though the center to the third point making a diameter. The angle from the new point to the center to the first point is labeled theta two. The angle made by the center point, the third point, and the first point is labeled psi two.
Step 2: Use what we learned from Case A to establish two equations.
Similar to what we did in Case B, we've created a diagram that allows us to make use of what we learned in Case A. From this diagram, we know the following:
Step 3: Substitute and simplify.
And we're done! We proved that
A summary of what we did
We set out to prove that the measure of a central angle is double the measure of an inscribed angle when both angles intercept the same arc.
We began the proof by establishing three cases. Together, these cases accounted for all possible situations where an inscribed angle and a central angle intercept the same arc.
Case A | Case B | Case C |
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Case A has three points on the circle. The second point is less than ninety degrees clockwise from the first point. The third point is one hundred eighty degrees clockwise from the first point. The angle made by the first point, the center, and the second point is labeled theta. The angle made by the first point, the third point which passes through the center, and the second point is labeled psi. | In Case B, there are three points on the circle. The second point is more than ninety degrees clockwise from the first point. The third point is more than one hundred eighty degrees clockwise from the first point. The angle made by the first point, the center, and the second point is labeled theta. The angle made by the first point, the third point, and the second point is labeled psi. | In Case C there are three points on the circle. The second point is less than ninety degrees clockwise from the first point. The third point is less than one hundred eighty degrees clockwise from the first point. The angle made from the first point, the center, and the second point is labeled theta. The angle made from the first point, the third point, and the second point is labeled psi. |
In Case A, we spotted an isosceles triangle and a straight angle. From this, we set up some equations using
In cases B and C, we cleverly introduced the diameter:
Case B | Case C |
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In Case B, there are three points on the circle. The second point is more than ninety degrees clockwise from the first point. The third point is more than one hundred eighty degrees clockwise from the first point. The angle made by the first point, the center, and the second point is labeled theta. The angle made by the first point, the third point, and the second point is labeled psi. A point is also on the circle to make a line segment that passes through the center to the third point as a diameter. Angle theta one is on the left and theta two is on the right of the diameter where theta was located. Angle psi one is on the left and angle psi two is on the right of the diameter located where psi was. | There are three points on the circle. The second point is less than ninety degrees clockwise from the first point. The third point is less than one hundred eighty degrees clockwise from the first point. The angle made from the first point, the center, and the second point is labeled theta. The angle made from the first point, the third point, and the second point is labeled psi. A point is on the circle with a line segment connecting it though the center to the third point making a diameter. The angle from the new point to the center to the first point is labeled theta two. The angle made by the center point, the third point, and the first point is labeled psi two. |
This made it possible to use our result from Case A, which we did. In both Case B and Case C, we wrote equations relating the variables in the figures, which was only possible because of what we'd learned in Case A. After we had our equations set up, we did some algebra to show that