A discrete graph.
Yes.
A graph composed of isolated points.
A scatter graph.
In two dimensions, the infinitely many points with coordinates of the form (x, x-2) where x is any number.
A graph with points
Yes, a graph that has a finite or limited number of data points is considered a discrete graph. Discrete graphs represent distinct, separate values rather than continuous data, which would be represented by a continuous graph. In a discrete graph, individual points are plotted, reflecting specific values without connecting lines between them.
A graph with finite data is one that represents a limited number of discrete points or values. For example, a bar graph illustrating the number of students in different classes at a school is finite, as it only includes specific, countable data points. Similarly, a scatter plot showing the relationship between two variables collected from a survey of a fixed number of respondents is also finite. In contrast, a continuous graph, like a sine wave, represents an infinite set of data points.
A graph that has a finite or limited number of data points is typically referred to as a discrete graph. Discrete graphs represent data that can take on specific, separate values, often illustrated with distinct points rather than continuous lines. Examples include bar graphs and scatter plots, where each point correlates to a specific data value.
true
A finite graph is a graph that has a limited number of vertices and edges, meaning it can be completely represented and counted. In contrast, an infinite graph has an unbounded number of vertices or edges, making it impossible to fully represent in a finite manner. Infinite graphs often arise in theoretical contexts, such as in discussions of limits or in certain mathematical structures, while finite graphs are commonly used in practical applications like network modeling.
finite and infinite graph.
finite automata
no
If the instant is finite, the object is in the position indicated on the graph
Yes.
There is no "this statement" associated with the question, but the maximum number of points which lie of the graph of a linear equation in two variables is infinite.
To graph points, use rise over run and go up and over on the graph