yes. If the data is scattered on the graph, you need to form a LSRL (least squared regression line), which is simply a line of best fit. However, if your data is precise, you can take any point and divide the mass at that point by the volume. If you make the LSRL, do the same thing with a point on the line.
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.
Graphing is used in measuring density. It plots the temperature and density as read, and gives the true density at standard conditions.
To determine the volume from a graph, you would need to calculate the area enclosed by the graph and the axes. If the graph represents a shape with known cross-sectional area, you can integrate the shape's area over the interval represented by the graph to find the volume.
The graph of Stokes' Law for different ball bearings through glycerol is typically a linear relationship between the terminal velocity of the ball bearings and the ball bearings' radius squared. The slope of this graph can be used to determine the viscosity of glycerol by using the formula: viscosity = (2/9) * (density of ball bearing - density of glycerol) * slope. The intercept of the graph is related to the density of the ball bearings.
AnswerWhen the mass of a material is plotted against volume, the slope of the line is the density of the material.
No, when pressure and volume are inversely proportional at constant temperature, the graph of pressure vs. volume is a straight line. This relationship is described by Boyle's Law, which states that pressure multiplied by volume is constant when temperature is held constant.
the graph should look like this:. . . . . . . .
mass and volume measurements for any sample liquid should fall along the graph line because liquids have a constant density. Density is mass over volume. Mass equals density which is a constant time volume.
what measurement of the liquid. There are many things you can measure in a liquid. weight volume temperature color boiling point conductivity voltage breakdown density specific gravity etc depends on what you are measuring in the liquid. There are many parameters of a liquid you could measure: volume temperature density salinity color conductivity etc
The slope of a mass vs volume graph represents the density of the material being measured. Density is a measure of how much mass is contained in a given volume of a material. The steeper the slope, the higher the density of the material.
When the vertical axis represents "number of things" and the horizontal represents "volume of the thing"---slope is change in vertical over change in horizontal, so units of the slope would be "number/volume", which is density.
Density is the slope of the line. density = mass/volume = constant. Since mass and volume have a linear relationship, then that constant is also the slope of the line on a graph of a comparison of mass to volume ratios.
If the volume is tripled while the density remains constant, the mass would also triple. This relationship is based on the formula: ( \text{Density} = \frac{\text{Mass}}{\text{Volume}} ). Triple the volume would result in triple the mass if density stays the same.
the slope would be grams/liter, so most likely density
The scale in a graph is determined by the range of the dependent and independent variables.
The answer depends on what the graph displays.
The slope of a mass vs weight graph represents the acceleration due to gravity. This value is consistent and is approximately 9.81 m/s^2 on Earth's surface.
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.
distance and time