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hypotenuese
Length is the distance - in given units - between two points on a line.
The distance between two distinct points with coordinates x1 y1 and x2 y2 on the same plane coordinate X-Y plane is sq rt[(x1 - x2)2 + (y1 - y2)2]. This is an application of the Pythagorean theorem. For the given problem, the answer is sq rt [(-2)2 + 32] = sq rt [13] = about 3.605551275.
A circle
Yes, the Euclidean distance is the length of the hypotenuse of the right angled triangle whose other two vertices are at the two given points.
Verdadero
Yes it is true
Answer: True
since you know of one points and the halfway point between the other point. just multiply the halfway point by 2 and this is the total distance between the two points.
It takes two coordinates to locate one point, but you've given only two numbers to locate two points. The distance between them can't be calculated with the information given, because the points can't be identified.
Calculate the difference of the y-coordinates, and divide it by the difference of the x-coordinates. That is the slope.
hypotenuese
Length is the distance - in given units - between two points on a line.
That depends on the coordinates of the end points which have not been given.
That depends on the coordinates of the end points which have not been given.
The distance between two points is: square root of [(x1-x2)^2 plus (y1-y2)^2] An exact answer could have been given if the points were properly enumerated.
A sphere is a solid bounded by the set of all points at a given distance from a given point.