A cup is a cooking measure of a volume, that is 0.2365882368 liters, equal to 16 tablespoons. If you have a cup of something, you can weigh it and determine the density of your 'something', but to express it in the correct scientific form, you need to convert the cup to liters and find the weight in kilograms.
It depends on the ingredient. For example, 1 cup of flour is around 4.5 ounces or 0.28 pounds, while 1 cup of water is approximately 0.52 pounds. The weight of one cup varies depending on the density of the ingredient being measured.
When volume increases while mass remains constant, density decreases because the same amount of mass is spread over a larger space. The relationship between density, mass, and volume is given by the formula density = mass/volume, so an increase in volume without a corresponding increase in mass leads to a decrease in density.
Gas will stay in a cup. If the gas is denser then air, it will settle into the cup and stay there in much the same way that a liquid will. If the gas is close to the same density as the air, or lighter, it will float away and mix with the air.
In general, there are approximately 240 milliliters in a US cup. If you are referring to water, 1 cup of water is about 240 milliliters, which is equivalent to 240 grams or 240,000 milligrams since the density of water is 1 gram per milliliter.
The denser liquid (1.1 gmL) will sink below the less dense liquid (1.0 gmL). The liquids will form two distinct layers in the cup based on their densities, with the denser liquid at the bottom and the less dense liquid on top.
The density of water is approximately 1 gram per milliliter. Since there are about 236.6 milliliters in a cup, 1 cup of water has a density of about 236.6 grams.
236.588 grams
Density is weight by unit of volume, its only dependent on the liquid, not how much of it there is. If you fill the cup from the lake both the water in the cup and the water in the lake will have the same density. But if the water in the cup is from the ocean, and the lake is a freshwater lake, then the water in the cup will have a higher density.
That depends on the density of what is inside of the cup
A cup of what? Kg = mass, cup = volume. You can derive the volume from the density and mass, or you can derive the density from the mass and the volume but without knowing the material the question is moot. You can't convert Kg to cups.
Sourcream is about same density as water. So 1 cup is about 230 gm.
The density of water remains constant regardless of the volume or shape of the container it is in. This is because the mass of water and its volume stay the same, resulting in the same density for both a pool and a cup of water.
It depends on the density of the liquid.
in a mesureing cup
A cup of water and a cup of ice would have the same volume and mass because they fill the cup to the same level. However, the cup of ice would have a lower density than the cup of water because ice is less dense than liquid water due to its expanded crystal structure.
In a hot cup, water molecules have more energy, so they move faster and further apart, leading to expansion and lower density. In a cold cup, water molecules move slower and closer together, resulting in contraction and higher density. This difference in movement affects the overall behavior and properties of the water in each cup.
An ounce (not a liquid ounce) is a measure of weight.A cup is a measure of volume.The number of ounces per cup will depend on the density of the material.For example, an ounce of flour is bigger in volume (because it is less dense) than an ounce of sugar.