I think you are going for continuous variable, as compared with discrete variables.
Discrete
Ratio - because there is a meaningful zero and an equal distance between points.
A discrete probability distribution is defined over a set value (such as a value of 1 or 2 or 3, etc). A continuous probability distribution is defined over an infinite number of points (such as all values between 1 and 3, inclusive).
more data points give you a much closer estimate to the slope of the graph at one single point. The slope of the graph between two points is the average velocity between two points, but with more points present, the data points will be closer together to give you a much closer approximation of the slope at one single point
Continuous variables have an unlimited number of possibilities between two points. In the scientific realm, age is a continuous variable.
Agglomerative Custering: is a type of bottom-up approach ,where it deals with each point as cluster of its own then start merging them. based on minimum distance between points until achieving number of clusters required Divisive Clustering: top-down approach , where it treat all points as one big cluster then start dividing it until achieving number of clusters required
There are an infinite number of points on the circumference of a circle and an infinite number of points on a semi-circle so the answer to your question is "An infinite number of pairs of points."
The radius of a circle or a sphere has infinite number of points.
Generally, no. All circles contain an infinite number of chords, as a chord can be created between any two points on the circle. With an infinite number of points on the circle we can create an infinite number of chords.
There are an infinite number of points between any two numbers on the real number line.
There are an infinite number of points on a line.
Between any two points on Earth, no matter how close together they are, there are an infinite number of latitudes and an infinite number of longitudes.
Between 2 distinct points, there are an infinite number of planes that can be drawn in 3 dimensions
Yes, there are an infinite number of decimal points between any two consecutive whole numbers.
Length is the measurement of distance between two points.
A point has no size, and a line is of infinite length, so it contains an infinite number of points. It takes only two points to describe or identify a line, but number of points it contains is infinte. Actually, even a line segment has an infinite number, since it is not possible to get two points so close together that another point won't fit between them.
A line, ray, or line segment contains an infinite number of points.
points