Mass and volume
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.
The conversion from milliliters (mL) to micrograms (μg) depends on the density of the substance. Without knowing the density, it is not possible to provide a direct conversion. You would need to know the density of the substance in order to make the conversion.
There is no direct conversion between milliliters (mL) and milligrams (mg) as they measure different things - volume and mass, respectively. The relationship between them depends on the density of the substance you are working with. You would need to know the density of the substance in order to make a conversion.
Pounds is a unit of mass/weight. Gallons is a liquid measure. They do not convert cleanly. The density of the liquid being measured can make a big difference. If the liquid is water, there is 8 pounds to a gallon.
The conversion between grams and milliliters depends on the substance's density. If the substance is water, 100 milliliters would be equivalent to 100 grams, as the density of water is approximately 1 g/mL. For other substances, you would need to know the substance's density to make the conversion.
The density of a substance determines whether it will sink or float in a particular liquid. If the substance's density is greater than the liquid's density, it will sink. If the substance's density is less than the liquid's density, it will float.
To convert 2 liters to kilograms, you would need to know the density of the substance you are measuring. The density of a substance determines how much mass is in a given volume. Different substances have different densities, so you would need this information to make the conversion.
if the substance of the element has greater density you can make it float by carving it out so weight over volume of the object is lighter in effective density
The conversion from milliliters to grams depends on the substance and its density. For water, 600 milliliters is equal to 600 grams since the density of water is 1 gram per milliliter. If the substance is different, you would need to know its density to make the conversion.
The conversion of cubic centimeters (cc) to grams depends on the substance being measured, as the density of the substance affects the conversion. For water, 20cc is equivalent to 20 grams, as the density of water is 1g/cc. If the substance differs from water, you need to know the substance's density to make the conversion accurately.
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.
The weight of 1 milliliter (ml) of a substance will vary depending on the substance's density. To convert milliliters to kilograms, you would need to know the density of the specific substance. Density is the ratio of mass to volume, so you would need this information to make the conversion.
The conversion from milliliters (mL) to micrograms (μg) depends on the density of the substance. Without knowing the density, it is not possible to provide a direct conversion. You would need to know the density of the substance in order to make the conversion.
reduce the volume of the substance by compression or increase the volume of the substance by decompression This assumes the substance is compressible, such as air. In the case of water, you can't.
There is no direct conversion between milliliters (mL) and milligrams (mg) as they measure different things - volume and mass, respectively. The relationship between them depends on the density of the substance you are working with. You would need to know the density of the substance in order to make a conversion.
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.
YES. The equation for density is D=M/V, that is density equals mass divided by volume. If the mass of an object is 4g and the volume of an object is 2ml then the density is 2g/ml. On the other hand if the mass of an object is 8g and the volume is 2ml, then the density is 4g/ml. Thus an increase in density. But be careful. If you are asking this: If I have more mass of the same substance is the larger mass more dense? In that case the answer is no, unless you are putting the larger mass into the same volume as the smaller mass.