It depends on the temperature and pressure. At 4degrees C and 1 atmosphere, pure water has a density of just below 1 gram per millilitre (0.9999720 g/ml). At all other temperatures the density of water is lower.
So, 30 ml would have a mass of just under 30 grams.
i dont know figure it out yourself
1cc (cubic centimeter) and 1mL (milliliter) are the same volume.
As mass in a sample increases, it requires more energy to alter the temperature. The energy required is equal to the specific heat of the sample, multiplied by the mass, multiplied by the temperature change.
1 ml of water weighs 1 gram
to be safety
About 1 gram.
In order to determine the mass of the water sample, you would need to know the density of water. The density of water is approximately 1 g/cm3. Therefore, the mass of a 20 cm3 sample of water would be 20 grams (20 cm3 * 1 g/cm3 = 20 grams).
1cc is 1ml, or .001 liters. 1cc of water also has a mass of 1g
The concentration of chloroform in the drinking water sample can be expressed as 0.0015% by mass. This is because 15 ppm represents 0.0015% of the total mass of the sample.
The density of water is approximately 1 gram per milliliter. Therefore, the mass of 1 milliliter of water is 1 gram.
Initial water content in the soil sample can be calculated using the initial mass and final mass after drying. Initial water content = (Initial mass - Final mass) = 1.38 kg - 1.13 kg = 0.25 kg. This is the mass of water in the soil sample.
The volume of the rock is the amount of water it displaces, 250ml. Considering that 1ml of water has a mass of 1 mg, the mass of the rock is 5.63 x 250gm = 1,407.5mg.
what?
The mass of 1 mL of water is 1 g.
There are 1.5 moles of water molecules in a 27 gram sample of water. This is calculated by dividing the mass of the sample (27 grams) by the molar mass of water (18 grams/mol).
Only with water. 1ml of water is equal to one gram of water; this is how the measurement systems are classified.
density = mass / volume. so you need to weigh to find the mass. To find the volume submerse in water and record the displacement of water to find the volume.