The distance formula is
d = sqrt (x2 - x1)^2 + (y2 - y1)^2
Taking the coordinates (5, 7) and (34, 4), d = the sqrtt of (-3 - 5)^2 + (4 - 7)^2 = the sqrtt of (-8)^2 + (-3)^2 = the sqrt of 64 + 9 = the sqrt of 73 or~8.544 units.
Note: sqrt stands for square root
In plane geometry, the shortest distance between two points is a line. In spherical geometry, the shortest distance between two points is a segment of a great circle. The distance between one point and another is known as the displacement.
In plane geometry, the shortest distance between two points is a line. In spherical geometry, the shortest distance between two points is a segment of a great circle. The distance between one point and another is known as the displacement.
True
yes
If you mean points of (4, 5) and (10, 13) then the distance works out as 10
In plane geometry, the shortest distance between two points is a line. In spherical geometry, the shortest distance between two points is a segment of a great circle. The distance between one point and another is known as the displacement.
The distance between these two points is 23.
Two points in a plane.
In plane geometry, the shortest distance between two points is a line. In spherical geometry, the shortest distance between two points is a segment of a great circle. The distance between one point and another is known as the displacement.
True
yes
If you mean points of: (2, 1) and (14, 6) then the distance is 13
The two points and the centre of the earth define a plane, and the intersection of this plane with the surface of the earth is a circle - the "Great Circle". The shortest distance between the two points is the smaller of the two arcs on this circle.
True
True
Distance between the points of (3, 7) and (15, 16) is 15 units
The distance between points: (9, 4) and (3, 4) is 6