you draw the line of best fit
A direct correlation, it appears as a straight line on a graph and occurs when variables are related as y=xk.
The voltage vs resistance graph shows that there is a direct relationship between voltage and resistance. As resistance increases, the voltage required to maintain the same current also increases. This relationship is depicted by a linear graph where the slope represents the resistance.
The conclusion that can be drawn from this graph is that as the mass of an object increases, its density also increases. This is indicated by the positive slope of the line on the graph, showing a direct relationship between mass and density.
The resistance vs length graph shows that there is a direct relationship between resistance and length. As the length of the material increases, the resistance also increases.
The p vs t graph shows how pressure and temperature are related in a system. It helps us understand how changes in temperature affect pressure, and vice versa. The slope of the graph can indicate whether the relationship is direct or inverse.
A direct relationship if the slope of the line is positive. An inverse relationship if the slope of the line is negative.
It is a relationship of direct proportion if and only if the graph is a straight line which passes through the origin. It is an inverse proportional relationship if the graph is a rectangular hyperbola. A typical example of an inverse proportions is the relationship between speed and the time taken for a journey.
type the equation that shows the relationship between the variables in this chart.
If the graph shows a direct relationship, then the line will go up. If it shows an inverse relationship, the line will go down. A direct relationship means that as one variable increases, so does the other. On a graph, this means that as we move out along one axis, we also move out along the other. An inverse relationship means that as one variable increases, the other one decreases. So, for example, as we move to the right (X increasing), we have to move down (Y decreasing).
A direct correlation, it appears as a straight line on a graph and occurs when variables are related as y=xk.
Straight line.
No, not every relationship whose graph passes through the origin represents direct variation. Direct variation specifically means that the relationship can be expressed in the form ( y = kx ), where ( k ) is a non-zero constant. While a graph passing through the origin indicates a proportional relationship, it can also represent other types of relationships, such as quadratic or polynomial functions, if they contain additional terms. Therefore, the key characteristic of direct variation is the constant ratio between ( y ) and ( x ), not just the point of intersection at the origin.
The voltage vs resistance graph shows that there is a direct relationship between voltage and resistance. As resistance increases, the voltage required to maintain the same current also increases. This relationship is depicted by a linear graph where the slope represents the resistance.
The conclusion that can be drawn from this graph is that as the mass of an object increases, its density also increases. This is indicated by the positive slope of the line on the graph, showing a direct relationship between mass and density.
The resistance vs length graph shows that there is a direct relationship between resistance and length. As the length of the material increases, the resistance also increases.
It's when one variable is related to another variable squared. It forms a upward curving graph.
straight line