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The luminosity vs. radius graph typically illustrates the relationship between a star's luminosity and its radius, often represented by the Stefan-Boltzmann Law, which states that luminosity increases with the fourth power of temperature and directly relates to the surface area of the star. In this graph, larger stars tend to be more luminous, showcasing a clear trend that highlights how stellar size influences brightness. Any deviations from this trend may indicate anomalies or specific stages in stellar evolution, such as red giants or white dwarfs. Overall, the two graphs provide insights into stellar characteristics and their evolutionary paths.
What else can I help you with?
How do you read a distance vs time graph and a speed vs time graph?
:Troll:
What is the difference between a speed vs time graph and a distance vs time graph?
The dependent variable.
What equal accleration on a speed vs time graph?
The gradient of the graph.
Is average speed the slope of a velocity vs. time graph?
No, average speed is not the slope of a velocity vs. time graph; rather, it is represented by the total distance traveled divided by the total time taken. The slope of a velocity vs. time graph indicates acceleration, which is the change in velocity over time. Average speed can be derived from the area under a speed vs. time graph, but it does not equate to the slope of a velocity vs. time graph.
What does a curved line represent on a time vs distance graph?
The curved line on a time vs. distance graph represents that the object is accelerating.
What is the relationship between the electric field and radius in a graph of electric field vs radius?
In a graph of electric field vs radius, the relationship between the electric field and radius is typically inverse. This means that as the radius increases, the electric field strength decreases, and vice versa.
How do you make a velocity vs time graph from an acceleration vs time graph?
Your acceleration vs. Time graph is the slope of your velocity vs. time graph
How does the position vs time graph of an object relate to its velocity vs time graph?
The position vs time graph of an object shows its location at different times, while the velocity vs time graph shows how fast the object is moving at those times. The slope of the position vs time graph represents the velocity on the velocity vs time graph.
How do you read a distance vs time graph and a speed vs time graph?
:Troll:
Where can you find a graph of atomic radius vs atomic number?
See the Web Links to the left for the answer.The AntoineFrosturg.edu page has a graph of atomic radius versus atomic number.The HMCO.com page has an interactive feature where you can individually plot the atomic radius for each row or column of the periodic table.The other two sites have tables with the actual numbers for the atomic radii. Go to wikipedia.org and look up atomic radius, they have 2 charts for it.
Is displacement the slope of the velocity vs time graph?
No, displacement is the area under the velocity vs. time graph. The slope of a velocity vs. time graph represents acceleration.
What is the difference between a speed vs time graph and a distance vs time graph?
The dependent variable.
Is acceleration the slope of the velocity vs. Time graph?
Yes!
How does the slope from the distance vs time graph compare to the average speed?
The slope of a distance vs. time graph represents the velocity of an object. Average speed is calculated by dividing the total distance traveled by the total time taken. If the object's velocity is constant, then the slope of the distance vs. time graph will be the same as the average speed.
What equal accleration on a speed vs time graph?
The gradient of the graph.
How do you figure out the starting point of a distance vs time graph when given the velocity vs time graph and a function?
To find the starting point of a distance vs time graph from a velocity vs time graph and a function, you would integrate the velocity function to find the displacement function. The starting point of the distance vs time graph corresponds to the initial displacement obtained from the displaced function.
How can one learn to find kinematic variables from a graph of position vs. time?
To find kinematic variables from a graph of position vs. time, one can calculate velocity by finding the slope of the graph at a specific point, and acceleration by finding the slope of the velocity vs. time graph. Additionally, one can determine displacement by finding the area under the velocity vs. time graph.
