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∙ 12y ago5 grams per 10,000 liters = 5 X 10-4 grams/liter = 0.5 ppm w/v
ppm stands for parts per million.
w/v stands for weight to volume.
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∙ 12y agoYes, a 60000cm³ container can hold 50 liters of water. 1 liter is equal to 1000cm³, so 50 liters would be 50,000cm³. Since 50,000cm³ is less than 60,000cm³, the container can hold 50 liters of water.
75 litres
9 liters
There is 0.1 liters in 100 millimeters of water.
There are 0.1 liters in 100milliliters of water because 1L = 1000mL.
2 million Wrong... 10000 mt = 10,000,000 kg gasoline weighs .75 kg /l 10000000/.75 = 13,333,333.333333 liters
1 litre = 1000 millilitres so 10 l = 10000 ml
Water with a salt concentration of about 3.5% is typically found in seawater.
what is the cost of sintex storage water triple layer tank of capacity 1000litre
Yes, a 60000cm³ container can hold 50 liters of water. 1 liter is equal to 1000cm³, so 50 liters would be 50,000cm³. Since 50,000cm³ is less than 60,000cm³, the container can hold 50 liters of water.
7
Concentration of a solution is recorded in molarity (M). Molarity is the moles of solute divided my liters of solution. So to find the concentration of a solution, calculate the number of moles of the solute (the chemical being dissolved) and measure the number of liters of the solution (the water), then divide them.
You would need to add 30 liters of 68% nitric acid to the 200 liters of water to achieve a 10% concentration. This calculation is based on the fact that the final volume will be 230 liters (200 liters of water + 30 liters of 68% nitric acid).
To make 2 L of saturated sugar water with a concentration of 0.6 mol/L, you would need 1.2 moles of sugar in total. Since the concentration of the solution is the same as the concentration of sugar, you will need to dissolve 1.2 moles of sugar in 2 L of water.
75 litres
To find the concentration of potassium chromate in 100 ml of water, you need to calculate the molarity. First, determine the molar mass of potassium chromate (K2CrO4). Next, calculate the number of moles of K2CrO4 in 3.50g using its molar mass. Finally, divide the moles of K2CrO4 by the volume in liters (0.1 L) to find the molarity.
To find the concentration of arsenic in ppb, we need to convert micrograms to grams and then calculate the concentration. First, convert 6.000 micrograms to grams by dividing by 1,000,000. This gives you 0.000006 grams of arsenic. Then, calculate the concentration by dividing the mass of arsenic by the volume of water (in liters) and multiplying by 1 billion to convert to ppb. The concentration of arsenic in the tap water sample is 24 ppb.