C is not on the line AB.
the midpoint of AB.
C is the midpoint of Ab . then AC = BC. So AC= CB.
The real answer is Bc . Hate these @
the midpoint (apex) Between A and B (Apex)
The shortest distance between any two points, A and B, in a plane is the straight line joining them. Suppose, that the distance A to C and then C to B is shorter where C is any point not on AB. That would imply that, in triangle ABC, the sum of the lengths of two sides (AC and CB) is shorter tan the third side (AB). That contradicts the inequality conjecture.
the midpoint of AB.
If AC plus CB equals AB and AC is equal to CB, then point C is the midpoint of segment AB. This means that point C divides the segment AB into two equal parts, making AC equal to CB. Therefore, point C is located exactly halfway between points A and B.
If point C is between points A and B, then the segment AC plus the segment CB equals the total distance AB. In other words, AC + CB = AB. Therefore, if we denote the distances as AC and CB, the equation simplifies to AC + CB = AB.
C is the midpoint of Ab . then AC = BC. So AC= CB.
the midpoint of
between A and B
The real answer is Bc . Hate these @
C is not on the line AB.
If point C is between points A and B, then the distance AC plus the distance CB equals the distance AB. This can be expressed mathematically as AC + CB = AB. It illustrates the segment addition postulate in geometry, which states that the sum of the lengths of segments on a line equals the length of the entire segment.
the midpoint (apex) Between A and B (Apex)
ac + cb = ab = 9 2x - 1 + 3x = 9 5x -1 = 9 So 5x = 10 Thereby x =2. Also ac = 3 and cb = 6
To find the length of segment AB, you simply add the lengths of segments AC and CB together. Since AC is 8 cm and CB is 6 cm, the length of AB is 8 cm + 6 cm = 14 cm. Therefore, segment AB is 14 cm long.