A scatter plot with mass on the x-axis and inertia on the y-axis is the best graph to represent the relationship between mass and inertia since it allows for visualizing any potential correlation or pattern between the two variables.
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 moment of inertia graph represents how an object's mass is distributed around its axis of rotation. It shows how the object's mass is concentrated and how it affects its rotational motion. The shape of the graph can indicate the object's size, shape, and density distribution, which in turn affects its rotational inertia and how it responds to external forces.
The graph that best represents the relationship between stream erosion and kinetic energy would show a positive correlation, with higher kinetic energy leading to increased stream erosion. The graph should have kinetic energy on the x-axis and stream erosion on the y-axis, with erosion rates increasing as kinetic energy levels rise.
A graph of Charles's Law would show a direct relationship between the volume of a gas and its temperature at constant pressure. As temperature increases, the volume of the gas also increases proportionally. This relationship is represented by a straight line passing through the origin on a graph where the x-axis represents temperature and the y-axis represents volume.
I had to answer this and found out that............ The line on the graph that represents the filament lamp is curved because the resistance of it increases with supplied voltage Hope this is alright for you :) x
In graph theory, a node (or vertex) represents a point or entity in a graph, while an edge represents a connection or relationship between two nodes.
A graph of complimentary goods in economics represents the relationship between the price of of commodity & demand for it's complementary. Thus it shows a inverse relationship.
The graph is a straight line.
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.
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.
a graph law graph shows the relationship between pressure and volume
The graph of a proportional relationship has the same unit rate, is a straight line, and starts at the origin.
There are no graphs to choose from!
In economics, the relationship between the consumer surplus (CS) and producer surplus (PS) graph shows the benefits that consumers and producers receive from a transaction. Consumer surplus represents the difference between what consumers are willing to pay for a good or service and what they actually pay, while producer surplus represents the difference between the price producers receive and the minimum price they are willing to accept. The combined area of the CS and PS graph represents the total economic welfare generated by a transaction.
The moment of inertia graph represents how an object's mass is distributed around its axis of rotation. It shows how the object's mass is concentrated and how it affects its rotational motion. The shape of the graph can indicate the object's size, shape, and density distribution, which in turn affects its rotational inertia and how it responds to external forces.
The graph that best represents the relationship between stream erosion and kinetic energy would show a positive correlation, with higher kinetic energy leading to increased stream erosion. The graph should have kinetic energy on the x-axis and stream erosion on the y-axis, with erosion rates increasing as kinetic energy levels rise.
The slope of a graph represents the rate of change between two variables. In a linear relationship, it indicates how much one variable changes for a unit change in another variable. For example, in a distance-time graph, the slope represents speed, showing how distance changes over time. The steepness of the slope can indicate the strength of the relationship between the variables.