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If we have 6% W//W urea solution with de...

If we have `6% W//W` urea solution with density `1.060g//mL`, then calculate its strength in `g//L`?

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To solve the problem of calculating the strength of a 6% W/W urea solution with a density of 1.060 g/mL in grams per liter (g/L), follow these steps: ### Step 1: Understand the meaning of 6% W/W 6% W/W means that there are 6 grams of urea in every 100 grams of the solution. ### Step 2: Calculate the mass of the solution Given that the solution is 100 grams, we know: - Mass of urea = 6 grams ...
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RESONANCE ENGLISH-SOLUTIONS-Advabced Level Problems (PART-2)
  1. If we have 6% W//W urea solution with density 1.060g//mL, then calcul...

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  2. The osmotic pressure of 6% solution of urea at 300 K is

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  3. The osmotic pressure of 6% solution of urea at 273 K is

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  4. The osmotic pressure of 6% solution of urea at 323 K is

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  5. There are two solutions each at 27^(@)C Solution A: contains 6g urea...

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  6. The osmotic pressure of 6% solution of urea at 298 K is

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  7. The osmotic pressure of 6% solution of urea at 258 K is

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  8. The osmotic pressure of 5% solution of urea at 258 K is

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  9. The osmotic pressure of 7% solution of urea at 298 K is

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  10. The osmotic pressure of 8% solution of urea at 300 K is

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  11. The freezing point depression of 0.001 m K(x) [Fe(CN)(6)] is 7.10xx10^...

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  12. Pure water can be obtained from sea water by:

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  13. The osmotic pressure of a solution containing 0.3 mol of solute per li...

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  14. The osmotic pressure of a solution containing 0.4 mol of solute per li...

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  15. An aqueous solution containing 288gm of a non-volatile compound havin...

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  16. The osmotic pressure of a solution containing 0.3 mol of solute per li...

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  17. The osmotic pressure of a solution containing 0.2 mol of solute per li...

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  18. Calculate the boiling point of water at 700mm pressure of Hg. The heat...

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  19. The osmotic pressure of a solution containing 0.1 mol of solute per li...

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  20. An aqueous solution of glucose boils at 100.01^(@)C.The molal elevatio...

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  21. The osmotic pressure of a solution containing 0.2 mol of solute per li...

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