It depends on the type of gasoline, and other factors such as temperature and pressure, but gasoline has an approximate density of 737.22 kilogram/cubic meter.
737.22 kilogram/cubic meter = 0.73722 kilogram/liter = 737.22 gram/liter
42.4 liters * 0.73722 kilograms/liter = 31.258 kilograms
or since you wanted grams, not kilograms...
42.4 liters * 737.22 gram/liter = 31258 grams(http://forum.onlineconversion.com/showthread.php?t=1114)
To make a 100ml 1M solution of Sodium Chloride, you would dissolve 5.85 grams of NaCl in enough water to make 100ml of solution. This molarity calculation is based on the molar mass of NaCl (58.44 g/mol).
To prepare a 2% solution of ferric chloride in 100ml of water, you would need to add 2 grams of ferric chloride. This is calculated by multiplying the volume of the solution (100ml) by the desired concentration (2%) and converting it to grams.
110 grams 1 milliliter of water is 1g. 100 of them is 100g plus a ten gram container is 110g
The weight of 100 mL of a substance can vary depending on its density. For water, 100 mL is equal to 100 grams. However, for other substances, you would need to know the density to convert volume to weight.
To make a 2 M solution of glucose in 100mL, you would need to calculate the molecular weight of glucose (180.16 g/mol) and then use the formula: mass (g) = molarity (M) x volume (L) x molecular weight (g/mol) mass = 2 mol/L x 0.1 L x 180.16 g/mol = 36.032 grams of glucose.
100ml of water weighs approximately 100 grams. Adding 15 grams of salt would bring the total weight to 115 grams.
To make a 100ml 1M solution of Sodium Chloride, you would dissolve 5.85 grams of NaCl in enough water to make 100ml of solution. This molarity calculation is based on the molar mass of NaCl (58.44 g/mol).
To prepare a 2% solution of ferric chloride in 100ml of water, you would need to add 2 grams of ferric chloride. This is calculated by multiplying the volume of the solution (100ml) by the desired concentration (2%) and converting it to grams.
It would be 12.6g of IKI to obtain the 100mL solution of 0.300 M IKI.
It would be 12.6g of IKI to obtain the 100mL solution of 0.300 M IKI.
Gasoline has a density of about 0.72 g/mL. Therefore, you would need about 2777 mL (2.777 L) of container space to hold 2000 g of gasoline.
To determine the mass of the sand, you'll need to subtract the mass of the container (14.5 grams) from the total mass of the container with sand in it. For example, if the total mass of the container with sand is 50 grams, then the mass of the sand would be 50 grams - 14.5 grams = 35.5 grams.
For practical purposes a gram and a millilitre are considered the same. So 100ml of icecream would be extremely close to 100 gm.
Density is calculated by dividing the mass of the substance by its volume. In this case, the density of gasoline would be 2700 grams ÷ 4000 ml = 0.675 grams/ml. So, the density of the gasoline is 0.675 grams per milliliter.
you would have 2.857 LITERS.
The answer is 0,9 g pure, dried NaCl.
The answer depends on the temperature, but at room temperature (20 deg C), 100 ml of water would have a mass of 99.82 grams.