The density of something does not depend on the amount of the substance you have, the density of 1 gram of water is the same as the density of 100000000 grams of water. The density of pure water at standard temperature and pressure is 1.
To calculate the density of the clay, use the formula: density = mass/volume. Given that the mass is 1000 grams and the volume is 500 cm³, the density would be 1000g / 500cm³ = 2 g/cm³. Therefore, the density of the clay is 2 g/cm³.
It depends what it is 1000g of. If it's water (what the SI units are based on), then no, because 1000g of water is 1000ml.
0.25ml of water, as 1liter of water equals 1kg, hence 1000ml of water equals 1000g.
1kg = 1000g 387kg x 1000g/kg = 387000g
1kg = 1000g 6.9kg x 1000g/kg = 6900g
assuming density of water of 1g/ml, there would be 1000g in a litre
1000g of water has a greater volume than 1000g of denatured ethanol because water is denser than ethanol. This means that water occupies less space per gram compared to ethanol.
Its is the same.
To calculate the density of the clay, use the formula: density = mass/volume. Given that the mass is 1000 grams and the volume is 500 cm³, the density would be 1000g / 500cm³ = 2 g/cm³. Therefore, the density of the clay is 2 g/cm³.
The density of water is 1 g/cm^3 (1000 g / 1000 cm^3), which means that for every cubic centimeter of water, there is 1 gram of mass.
The density of corn syrup is 1380g/L where milk has a density of between 1030 and 1040g/L. The density of milk is much less than the density of corn syrup. Milk is closer to water (1000g/L) since this is a major constituent.
Well the definition of molarity is how many moles in every litre. You already have your answer expressed as moles in a litre, approximately. Density is approximately 1000g per litre, therefore it will be approximately 2 molar. (You haven't expressed temperature, but density should remain close to 1).
It depends what it is 1000g of. If it's water (what the SI units are based on), then no, because 1000g of water is 1000ml.
the specific gravity is how the density of the object compares to the density of water. Water's density is 1gram per milliliter. We just need to figure out the density of the object. The object is .8 kg and it displaces 500mL of water, so the density is the mass divided by the volume. Since the density of water is given in grams, we have to convert the objects mass from kg to g and then we can get the density. .8kg * 1000g/kg = 800 grams so, 800g/500ml = 1.6grams/mL this is the density. So divide the density of your object by the density of water, which is 1g/mL, you get 1.6 as the specific gravity. This means the object is 1.6 times more dense than water.
the specific gravity is how the density of the object compares to the density of water. Water's density is 1gram per milliliter. We just need to figure out the density of the object. The object is .8 kg and it displaces 500mL of water, so the density is the mass divided by the volume. Since the density of water is given in grams, we have to convert the objects mass from kg to g and then we can get the density. .8kg * 1000g/kg = 800 grams so, 800g/500ml = 1.6grams/mL this is the density. So divide the density of your object by the density of water, which is 1g/mL, you get 1.6 as the specific gravity. This means the object is 1.6 times more dense than water.
1000g
Yes, with water at 4oC