A histogram is a suitable graph to show the density of different substances, as it can visually represent the distribution and frequency of data points. By binning the data into intervals and displaying the frequency of each interval, you can effectively showcase the density differences among the substances in a single visual representation.
Make a graph by plotting the atomic number vs the mass number of stable isotopes. If you then locate the position of some unstable isotope and it is on one side of the stable isotopes it indicates beta decay, but if on the other side it indicated alpha decay. This a nuclear decay graph.
The density of a liquid can be determined by calculating the slope of the graph of mass vs volume. The density is equal to the slope of the graph, as density is mass divided by volume. By finding the slope of the graph, you can determine the density of the liquid being studied.
The graph will be a straight graph if you plot r2 against v. If we calculate the gradient of the line this is giving us the value of the constant "k" from the equation: k = v r2 With this calculated value of "k" we can calculate the value of the viscosity of the liquid using: Viscosity = 2(Denisity of sphere - Denisty of Glycerol) g 9k
The graph that best shows the inferred density of Earth from the upper mantle to the lower mantle typically demonstrates a gradual increase in density with depth. This trend reflects the increasing pressure and temperature conditions as you move deeper into the Earth, leading to denser materials forming in the lower mantle. A line graph or a bar graph that illustrates this increase clearly, with depth on the x-axis and density on the y-axis, would effectively represent this relationship.
To determine the best inferred density of Earth from the upper mantle to the lower mantle, one would typically look for a graph that displays density values increasing with depth. This trend is due to the increasing pressure and temperature conditions as you move deeper into the Earth. A graph that shows a smooth, continuous increase in density, consistent with geophysical models, would be most indicative of the mantle's density profile. Look for key markers indicating the transition zones between the upper and lower mantle, where density changes more significantly.
A bar graph is often the best choice for displaying the density of different substances, as it allows for easy comparison between them. Each bar can represent a different substance, with the height corresponding to its density, making it visually clear which substances are denser than others. Alternatively, a dot plot can also effectively show density comparisons, especially if there are many substances to compare.
A comparing graph is a graph that compares number to see if they similar or different.
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 slope of a mass versus volume graph represents the density of a substance. Density is calculated as mass divided by volume (density = mass/volume), so the slope indicates how much mass is contained in a given volume. A steeper slope indicates a higher density, while a gentler slope indicates a lower density. This relationship is crucial in identifying materials and understanding their physical properties.
A phase diagram is a graph that shows the different states of a substance (solid, liquid, gas) based on the temperature and pressure it is subjected to. It displays the conditions at which phase transitions occur, such as melting or boiling points.
I'd use a bar graph.
A bar graph cannot have classes with different width. The height of a bar graph represents the frequency attributed to that class whereas in a histogram the area of a "bar" is proportional to the frequency, the height represents the frequency density.
A graph about masses and volumes would represent density.
You just write a title that sums up your graph a the top, such as "Number of People from Different Countries that like Salad".
Make a graph by plotting the atomic number vs the mass number of stable isotopes. If you then locate the position of some unstable isotope and it is on one side of the stable isotopes it indicates beta decay, but if on the other side it indicated alpha decay. This a nuclear decay graph.
To determine the half-life of a substance from a graph, locate the point where the substance's concentration is half of its initial value. Then, find the time it took for the substance to reach that concentration. This time interval is the half-life of the substance.
i would put different colors on the graph or i will put the sports on one side and the number of students who like that sport on the graph