All direct variation graphs are linear and they all go through the origin.
graphs,distinguisment
If the slopes are the same on both graphs, they are parallel, and will never touch.
Their graphs are.
It makes it easier to see trends and direct relationships in data.
All direct variation graphs are linear and they all go through the origin.
Equations are never parallel, but their graphs may be. -- Write both equations in "standard" form [ y = mx + b ] -- The graphs of the two equations are parallel if 'm' is the same number in both of them.
graphs,distinguisment
If the slopes are the same on both graphs, they are parallel, and will never touch.
Needs more information... graphs of what?
Base on the slope of two linear equations (form: y = mx+b, where slope is m): - If slopes are equal, the 2 graphs are parallel - If the product of two slopes equals to -1, the 2 graphs are perpendicular. If none of the above, then the 2 graphs are neither parallel nor perpendicular.
circle graphs add up to 100% , bar and line graphs don't
We use climate graphs to visualize and understand the climate characteristics of a specific location. Climate graphs provide a clear overview of the average temperature and precipitation patterns over the course of a year, allowing us to compare and analyze different climates. They are an effective tool for identifying climate types, seasonal variations, and making climate-related comparisons between different regions.
No because the slope in both lines have different values
they all compare different amounts
Linear has a slope direct does not but both go through the orgin
Their graphs are.