X is horisontal Y is vertical
I'm guessing that first you must during the experiment collect the data that you observed, then collect this data and organize it independent and dependent variable (The x-axis is the independent variable and the y-axis is the dependentvariable).
To illustrate the graph of a simple pendulum, you can plot the displacement (angle) of the pendulum on the x-axis and the corresponding period of oscillation on the y-axis. As the pendulum swings back and forth, you can record the angle and time taken for each oscillation to create the graph. The resulting graph will show the relationship between displacement and period for the simple pendulum.
A line graph could show how body mass changes with height by plotting body mass on the y-axis and height on the x-axis. Each data point represents a person's height and corresponding body mass. The line connecting the data points would help visualize the relationship between height and body mass, showing whether there is a positive, negative, or no correlation between the two variables.
The period vs amplitude graph shows that there is no direct relationship between the period and amplitude of a wave. The period and amplitude of a wave are independent of each other, meaning changes in one variable do not necessarily affect the other variable.
The legend of a graph typically explains what each bar or line represents. The legend is usually located either above, below, or to the side of the graph. It uses colors, symbols, or patterns to match each element to its corresponding label.
Each axis is labeled with the name of the variable, the unit of measurement, and a range of values.
To provide an accurate answer about what is required on each axis, I would need more context regarding the specific graph or chart being referenced. Generally, for a standard graph, the x-axis typically represents the independent variable, while the y-axis represents the dependent variable. Each axis should be clearly labeled with the appropriate units of measurement and a scale that effectively communicates the data being presented.
On whichever variable is considered the y-variable. It would be the second element of each ordered pair of data points.
On whichever variable is considered the y-variable. It would be the second element of each ordered pair of data points.
On whichever variable is considered the y-variable. It would be the second element of each ordered pair of data points.
On whichever variable is considered the y-variable. It would be the second element of each ordered pair of data points.
On whichever variable is considered the y-variable. It would be the second element of each ordered pair of data points.
In a graph, the independent variables are typically represented on the x-axis, or horizontal axis. Each point or line on the graph corresponds to a specific value of the independent variable, allowing for the visualization of how it influences the dependent variable, which is plotted on the y-axis. In multi-variable graphs, additional independent variables can be represented using different colors, shapes, or additional axes.
To plot a graph, first, identify the variables you want to represent on the axes, typically with the independent variable on the x-axis and the dependent variable on the y-axis. Next, collect and organize your data points, then mark each point on the graph according to its coordinates. Finally, you can connect the points with lines or curves if applicable, and label the axes and title the graph for clarity.
I'm guessing that first you must during the experiment collect the data that you observed, then collect this data and organize it independent and dependent variable (The x-axis is the independent variable and the y-axis is the dependentvariable).
On whichever variable is considered the y-variable. It would be the second element of each ordered pair of data points.
There are seven steps which are: 1. Identify the variables 2. Determine the variable range 3. Determine the scale of the graph 4. Number and label each axis 5. Plot the data points 6. Draw the graph 7. Title the graph