When the water froze into ice it was expanding (thermal expanision) causing the 100 grams of ice to have a greater volume than 100 grams of water!
To determine the density of 10 grams of granular zinc, you would divide the mass (10g) by the volume. First, measure the volume of the zinc using a graduated cylinder. Then, divide the mass by the volume to calculate the density (Density = Mass/Volume).
Fill a beaker with water, and weigh it. Weigh a sample of the mineral. That's the mass of the mineral. Put the sample in the beaker and weigh that. The weight of the water-filled beaker plus the weight of the mineral sample will be greater than the weight of the beaker with mineral sample and water. The difference is the weight of the displaced water, in grams. The volume of the mineral sample, in cubic centimeters is equal to the weight of the displaced water, in grams. Calculate the specific gravity of the mineral by dividing the weight of the mineral sample by the volume of the mineral sample. Example: your beaker weighs 40 grams. Filled with water, it's 1040 grams. The sample of mineral weighs 160 grams. The beaker with the sample of mineral and water weighs 1179.7 grams. The mineral, and the beaker with water would have a combined weight of 1200 grams, but the beaker with mineral and water weighs 20.3 grams less than that, so the mineral sample is displacing 20.3 cubic centimeters of water. Given a mass of 160 grams and a volume of 2.03 CC, the specific gravity would be found by dividing 160 by 20.3. It's 7.85. (Which happens to be the specific gravity of some iron.)
You would need to dissolve 14.62 grams of NaCl in water to make a 0.5M NaCl solution with a final volume of 500 ml. This calculation is based on the formula: moles = Molarity x Volume (in liters), and then converting moles to grams using the molecular weight of NaCl.
Dolomite is denser than that water. Water has a density at room temperature of 0.9 grams repeated or 1.0 grams. Dolomite in a mass of cube is 2.84 grams, so it is denser than water, concluding, that it will sink in water.
During flood times, the volume and velocity of water in a river increase significantly, leading to higher levels of erosion. The increased force of the rushing water allows it to pick up more sediment and debris, resulting in greater erosion of the riverbed. Additionally, floodwaters can also introduce new energy sources, such as debris and trees, that can further contribute to erosion.
When the water froze into ice it was expanding (thermal expanision) causing the 100 grams of ice to have a greater volume than 100 grams of water!
100 grams of water at standard temperature and pressure has a volume of 100 cubic centimeters or 100 millilitres. The volume of 100 grams of any other substance will depend on its specific gravity or density: if less than that of water, it will have a greater volume; if greater than that of water, it will have a smaller volume.
Depends on the substance. A gram of lead will have a lot less than a ml of volume, while a gram of oxygen will have a greater volume than 1 ml. Water is 1 ml per gram, but that changes with the temperature of the water. Warm water, and very cold water (<4o C) will have a somewhat greater volume than 1 ml per gram weight.
405 grams of water equals 405 milliliters of water. This only holds true for water. You are converting from weight to volume which depends on the density of the substance in which you are interested. Water has a density of 1 gram per cubic centimeter (identical to a milliliter), so the conversion is one to one. Significantly, if you have 405 grams of sand, you will get a much smaller volume (approximately 270 ml) since sand's density is greater than water. Similarly, 405 grams of flour makes a volume greater than 405 ml because the density is lower than that of water.
It's not that easy. -Grams is weight and ml is volume. The gram and ml are ONLY directly related in weight/volume of water,( 1 litreof water weighs 1 Kilogram, so any amount of ml is the same in grams,-but ONLY for water ! If your medium is flour, the volume is much greater, if sand volume is much smaller.
The volume of nothing is nothing
Density is calculated as Mass / Volume. Therefore for an object that has a mass of 350 grams and a volume of 95 cm^3, the density would be 3.684 g/cm^3. Water has an estimated 1g/cm^3 density, therefore the density of this object is greater than that of water and would sink.
alcohol has a greater volume because when you combine the two substances together water will desolve
Volume and Grams are different concepts. Grams Objects Volume Water
No, water with a greater volume will cool slower than water with a lower volume because it takes more energy to heat or cool a larger volume of water. The larger volume of water will retain heat longer than the smaller volume.
6ml is hard to explain in words. If the density is 1 gram per ml, such as water is at room temp, then 6ml will be the volume taken up by 6 grams of water
The water displaced by the body is equal to its volume.