It is the distance between its endpoints of v and s
This is the length of the segment.
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Congruent
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True
There is no reason that the length of a line segment can't be measured.There is no reason that the length of a line segment can't be measured.There is no reason that the length of a line segment can't be measured.There is no reason that the length of a line segment can't be measured.
The definition for length of segment is the distance between the endpoints of s segment
what about such a line segment? the length of such a segment is called the radius. the area of the circle is pi*the length of this segment squared the circumference is 2*pi*the length of this segment
A line is of infinite length, a segment is of finite length.
If you travel along the length of the segment from one end to the other, whether it is curved or straight, you can measure its length. The midpoint is the spot on the segment at this mid length, equidistant from the endpoints when moving on the segment.
Mostly because, assuming it just one segment, a midpoint by definition (mid- means middle) is the point at the exact middle of a line segment; whereas the length of the segment is the entire length of the segment. Pretty much, a midpoint is a point in the middle of the line, the length is the measurement of the same line.
This is the length of the segment.
It is true. A line segment has finite length but no width.
The step in the construction of copying a line segment that ensures the new line segment has the same length is the use of a compass. When you place the compass at one endpoint of the original line segment and adjust it to span the length of the segment, you can then replicate this exact distance from a new starting point. This guarantees that the length of the newly drawn segment matches that of the original.
A line segment's length is restricted by its endpoints
To determine the length of the blue line segment, we need to understand the context of the transverse axis and the red line segment. If the red line segment represents the length of the major axis of an ellipse, and the transverse axis is the distance across the ellipse at its widest point, then the blue line segment could be half the length of the transverse axis. However, without additional information about the relationship between these segments, a precise length for the blue line segment cannot be determined.
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