Change 200mL into decimal.
You can do that or you can zero balance the scale with the empty beaker on it before adding the substance to be measured to the beaker.
The mass of 100 ml of standard water under standard conditions is 100 grams, regardless of what it's in. We have no way of knowing the mass of the empty beaker.
You must obtain and subtract the mass of the beaker.
u2/cm/g3 * * * * * I have no idea about the above answer, but it does not appear to answer the question. The best way to find the mass of a given quantity of water is to use a balance to find the mass of an empty container. Then pour the water into the container and measure their combined mass. The difference between the two is the mass of the water.
Take a 500ml beaker, add 160ml of glycerol. make up the volume to 200ml by adding water. Stir them with a magnetic stirrer for a while and here is your 80% Glycerol.
between which two of these times was the mass of the contents of the beaker
32 g
It is necessary to know the mass of the empty beaker.
You can do that or you can zero balance the scale with the empty beaker on it before adding the substance to be measured to the beaker.
Measure the mass of the beaker including the powdered solid. Then empty the beaker, make sure ALL traces of the powder have been removed and measure the mass of the empty beaker. The difference between the two measure is the measure of the powdered solid.
The mass of 100 ml of standard water under standard conditions is 100 grams, regardless of what it's in. We have no way of knowing the mass of the empty beaker.
stop cheating on gizmos, fool. :)The Answer: The mass of the water in the graduated cylinder is equal to the mass of the object.lol
You must obtain and subtract the mass of the beaker.
mass by difference is an indirect way to find the mass of an object. For example, if you know the mass of a 'beaker and the substance in it' and the 'mass of the beaker', you can determine the mass of the substance by subtracting (mass of beaker + substance) - (mass of beaker)
The answer will depend on the capacity of the beaker. There is no information about that in the question.
Somehow your data doesn't add up. The mass difference would be 195 - 125 = 70 grams. 1 ml of water weighs roughly 1 gram, so you would expect 70 ml of water to be filled into the beaker. Your water is either contaminated, extremely heavy or its a trick question.
86 g