0.1 N means you have a hydronium ion concentration of 0.1 mole/L. Since sulfuric acid is a diprotic acid, you get 2 moles of ionizable protons per mole a sulfuric acid. Meaning, you only need a concentration of 0.05 M sulfuric acid to obtain 0.1 N sulfuric acid. [10 L] * [0.1 mole H+/L] * [1 mole H2SO4/2 mole H+] * [98.08 g/mole H2SO4] * [1 mL/1.84 g H2SO4] = 26.65 mL H2SO4 required to make 10 L 0.1 N H2SO4.
The specific gravity of diamond is 3.5, which is 'above average'.
The specific gravity of lithium is 0.534
What is the specific gravity of petroleum natha
The specific gravity of propane is 0.495 at 25oC.
Specific gravity of LPG is 54 kg/liter.
Dilute
The cost of the higher specific gravity puree is higher because it is more concentrated due to a lower percentage of water. More tomatoes are used to make the same volume of puree if the specific gravity is higher. The specific gravity is a means of assessing how concentrated the puree is. More water is liberated from the tomato puree to make it more concentrated. More tomatoes are used, hence the higher cost.
It is called the center of mass, this is the specific point where the mass seems to be concentrated.
The specific gravity can be an excellent source of information on hydration. This is an elevated result indicative of concentrated urine associated with dehydration. A normal specific gravity ranges from 1.010 to 1.020. normal range of S.G. in urine is 1.003 to 1.030.
Prolonged high specific gravity, which is the measure of concentrated urine. A condition that causes this is prolonged dehydration.
Mass (micrograms) to volume (millilitres) conversion cannot be performed unless the specific gravity of the oil is known.
Mass (grams) to volume (millilitres) conversion cannot be performed unless the specific gravity of the substance is known.
No. Specific heat is the amount of heat required to raise 1 kg of material by 1 K at constant pressure, while specific gravity is the ratio of the material's density to a reference density (typically water).
Decrease, you are making the specific gravity closer to that of water.
The specific gravity is approx 0.86. The density of the substance is 0.86 grams per millilitre. You need to divide this number by the density of pure water, in the same units. At 20 deg C (room temperature) the density of pure water is 0.9982 grams per ml. So the specific gravity of the liquid is 0.86/0.9982 = 0.8616, approx.The fact that there are 30 ml of the liquid is totally irrelevant.
The "sucking" is done by the gravity. A black hole has a large mass, concentrated in a small region of space.The "sucking" is done by the gravity. A black hole has a large mass, concentrated in a small region of space.The "sucking" is done by the gravity. A black hole has a large mass, concentrated in a small region of space.The "sucking" is done by the gravity. A black hole has a large mass, concentrated in a small region of space.
bkw required = (head * flow* specific gravity) / (efficiency of pump*367.2)