The same as the density of any other amount of water.
The density of water is about 1 g/mL. Therefore, for 253.23 g of water, the volume will be approximately 253.23 mL.
At room temperature (20 deg C), it is 160.3 ml.
The formula for density is density = mass/volume. In this case, the mass is 25 g and the volume is 25 ml. Therefore, the density of water in this scenario would be 1 g/ml.
The volume of the metal can be calculated by finding the difference in water levels before and after adding the metal (28.69 ml - 21.76 ml = 6.93 ml). The density of the metal can be calculated using the formula: density = mass / volume. So, density = 91.66 g / 6.93 ml = 13.23 g/ml.
The volume of the object is the difference in water level before and after the object is added, which is 10 ml (30 ml - 20 ml). The density of the object is mass divided by volume, so 2g / 10 ml = 0.2 g/ml. Therefore, the density of the object is 0.2 g/ml.
The density of any substance remains the sameirrespective of its volume.
The density of water is about 1 g/mL. Therefore, for 253.23 g of water, the volume will be approximately 253.23 mL.
At room temperature (20 deg C), it is 160.3 ml.
Salt Water Density: 1.027 g/mL Fresh Water Density: 1 g/mL
At standard pressure and temperature the density = 1.0.
It's not! Pure water has a density of 1.000 g/ml. Sea water has a density of 1.025 g/ml and saturated salt water has a density of roughly 1.2 g/ml.
The same density of 1ml of water. (approx 1g/ml)
No, because ice has a density of .92g/ml allowing it to float over on water's 1g/ml density.
The formula for density is density = mass/volume. In this case, the mass is 25 g and the volume is 25 ml. Therefore, the density of water in this scenario would be 1 g/ml.
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.
water has a density of approximately 1g/ml
1g/mL