The y-axis is the vertical axis in a two-dimensional graph, usually representing the dependent variable in a mathematical function or data set. It is perpendicular to the x-axis, which typically represents the independent variable.
Answer
The y-axis is the vertical axis in a two-dimensional graph, usually representing the dependent variable in a mathematical function or data set. It is perpendicular to the x-axis, which typically represents the independent variable.
The y-axis is the vertical axis in a two-dimensional graph, usually representing the dependent variable in a mathematical function or the variable that is being predicted in a statistical model. It is perpendicular to the x-axis, which typically represents the independent variable or the variable that is being manipulated in an experiment or study.
The y-axis is the vertical axis in a two-dimensional graph, usually representing the dependent variable in a mathematical function or data set. It is perpendicular to the x-axis, which typically represents the independent variable.
The y-axis is the vertical axis in a two-dimensional graph, usually representing the dependent variable in a mathematical function or the variable being measured in an experiment. It is perpendicular to the x-axis, which typically represents the independent variable or the variable being manipulated.
The x-axis is a horizontal line that runs from left to right on a graph or chart. It is used to plot and represent values for a certain variable or data set. In a two-dimensional coordinate system, the x-axis is typically considered the 'horizontal' axis. In three-dimensional systems, it is one of three axes, along with the y-axis and z-axis.
The y-axis is the vertical axis in a two-dimensional graph, usually representing the dependent variable in a mathematical function or the variable being measured in an experiment. It is perpendicular to the x-axis, which typically represents the independent variable or the variable being manipulated.
This expression represents the square root of the sum of 1 and the square of the derivative of a function f at a point x. It is often used in calculus, particularly in problems involving arc length and surface area.