Because density equals mass over volume which equals mass divided by volume. It doesn't matter what the volume in the graduated cylinder is but when you subtract just the volume of the graduated cylinder, you subtract the two. Then you find the mass and volume which should be the same divide them and the answer is one!
ONE IS ALWAYS THE ANSWER
The density of water is approximately 1 gram per milliliter. Therefore, 4 ounces of water is equivalent to approximately 118 milliliters, which would weigh approximately 118 grams.
The mass of 1 mL of water is 1 g. The density of water at 4 0C (the maximal density) is near 1 g/cm3.
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.
no. the density of an object is alone no matter how much you have it is still the same if i have a glass of water its density is 1 if i have an ocean of water its density is 1
Not always. The density of water is 1 gram/mL at around 4 degrees Celsius. As temperature rises, kinetic effects kick in causing the volume per unit mass of water to increase, thus decreasing the density of water. Interestingly enough, the density of ice (frozen water) is also less than liquid water. The formation of ordered crystal lattices occupying relatively large amounts of space causes the rise in volume and an overall drop in density.
the exact density of water is 1
The density of water is approximately 1 gram per milliliter. Therefore, 4 ounces of water is equivalent to approximately 118 milliliters, which would weigh approximately 118 grams.
You divide the mass (m) by the volume (v) to get the density (d). Side note: the density of water is always 1.
No. Objects will only float in water with a density that is less than 1. This is not always true if another substance is in the water, such as salt.
the density for water is always 1.0 gm/cm3
The density of water is 1.
Generally, barring unusual temperatures / pressures the density of water is 1 g / mL The density of water at sea level pressure and 4C temperature is exactly 1 g/mL, at different temperatures it is always less. At different pressures things become more complicated.
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.
1g/mL Density is an intensive property so no matter the amount of water, its density is always the same.
The relative density in water refers to how dense a substance is compared to water. If the relative density is greater than 1, the substance will sink in water. If the relative density is less than 1, the substance will float in water.
For floating in water: density under 1 g/cm3 For sinking in water: density more than 1 g/cm3
An egg will float in salt water depending on the amount of salt found in the water because this increases the density of the solution. The density of salt water should always be higher than the density of the egg in order for it to float.