The chemical formula of the urea is CH4N2O. The Atomic Mass of Carbon is 12. That of hydrogen is 1*4. That of nitrogen is 14 * 2. That of oxygen is 16. So total atomic mass of urea comes to be 60. So you have to add 60 grams of urea to one liter of the water to make one molar solution.
The hydrolysed solution of urea is basic.In liquid ammonia urea act as proton donor and the solution is acidic.
They cannot be interconverted. A milliliter is a unit of volume while a centimeter is a unit of distance. a milliliter is equal to a cubic centimeter, however.
the concentration of urea should be kept low in the dialysis fluid because urea is harmful for our body if it is not removed.
Urea,Creatine,Creatinine urea 9.3 g/L, chloride 1.87 g/L, sodium 1.17 g/L, potassium 0.750 g/L, creatinine 0.670 g/L and other dissolved ions, inorganic and organic compounds and water.
1m = 1000mm = 1x10^3mm1m x 1m = 1m^2(1x10^3)mm x (1x10^3)mm = 1x10^6mmso: 1m^2 = 1x10^6mm^2hope that help
To prepare a 6 M solution of urea, dissolve 540 g of urea in enough water to make 1 liter of solution. Start by measuring out the correct amount of urea, then add water gradually while stirring until the urea is completely dissolved. Be sure to use proper safety precautions when handling chemicals.
Make Solution A by dissolving 174.18g of K2HPO4 in 1L of dH2O. Make solution B by dissolving 136g of KH2PO4 in 1L of dH2O. now mix solution A and B and finally adjust pH of your buffer.
To prepare 1M H2SO4 solution, you would need to dilute concentrated sulfuric acid (approximately 18M) by adding the appropriate amount of water. To make 1L of 1M H2SO4 solution, you would mix approximately 55.5 mL of concentrated sulfuric acid with about 944.5 mL of water in a volumetric flask while taking proper safety precautions.
A 1 Molar solution simply means an element's/compound's atomic mass (as given in the periodic table of the elements) diluted in 1 L deionised water. Sulphuric acid for example is H2SO4 (1+1)+(32)+(16+16+16+16) = 98 Therefore 1M = 98in 1L You only want 3.5mM (0.0035) Therefore 3.5mM = 0.343 g made up in 1L water ..................(98 x 0.343)
AMMONIA and carbon-di-oxide combines in liver to make urea.
The two main reactants that are used to make urea are oxygen and carbondioxide.
Not entirely correct: The molecular weight of HCl is 36.46g/Mole therefore a 36% (w/w) solution would be 36g/100g H2O or 36g/100mL H2O or 360g/L dividing that out, an exact 36% soln of HCl would be 9.87M (or 9.87N). To make a 1L soln of 1M HCl from 9.87M HCl you add 101.28ml HCl @ 9.87M to 898.72ml H2O. In practice HCl is labeled 36-38% (w/w) and it is treated as 10M (10N), for an exact measurement one must do a titration for the Cl ion. Add 85ml of 36w/w HCl to 900 ml of water,mix dilute to 1000ml with water,to get 1M HCl
earn it.
1L is 1000mL
Depends on how accurate you need to be. Ideally 56.11g of KOH made up to 1L. Dissolve 56.11g in say 500ml then make up to 1l using water - 1l volumetric is the way to go. If you need 1000L then I would suggest 56.11kg chucked into 1000L All the best
All cells make urea, it is a waste product. The urea is processed by the kidneys (reabsorbing most of the water) then transfered by the ureters to the urinary bladder.
Urea can be made by reacting ammonia with carbon dioxide in a process called the Haber-Bosch process. This reaction forms urea and water as products.