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3 years ago

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11. The mass (in grams) of FeSO4.7H2O required for preparation of 125 mL of 0.90 M

1 answer:

Mamont248 [21]3 years ago

8 0

Answer:

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A molecule is known to have a molar absorptivity of 18,650 at a certain wavelength. A spectrometer is tuned to this wavelength a

iren2701 [21]

Answer:

17,932.69 g/mol is the molecular weight of the substance.

Explanation:

Using Beer-Lambert's law :

Formula used :

$A=\epsilon \times c\times l$

where,

A = absorbance of solution = 1.04

c = concentration of solution =?

l = length of the cell = 1 cm

$\epsilon$ = molar absorptivity of this solution = 18,650 $M^{-1} cm^{-1}$

Now put all the given values in the above formula, we get the molar absorptivity of this solution.

$1.04=18,650 M^{-1} cm^{-1}\times c)\times (1cm)$

c = $5.576\times 10^{-5} M$

$Concentration=\frac{\text{Mass of compound}}{\text{Molecular mass of compound}\times V}$

V = Volume of the solution in L

Molecular weight of the substance = x

V = 100 mL = 0.1 L

Mass of the substance = 100 mg = 0.1 g

$5.576\times 10^{-5} M=\frac{0.1 g}{x\times 0.1 L}$

x = 17,932.69 g/mol

17,932.69 g/mol is the molecular weight of the substance.

6 0

3 years ago

How many milliliters of a 0.223 M KNO3 solution contain 0.250 moles of KNO3?

anyanavicka [17]

Answer:

1121.08 millilitres of 0.223 M $KNO_{3}$ solution contains 0.250 moles of $KNO_{3}$ .

Explanation:

The formula for molarity of a solution:

$Molarity=\frac{n}{V}\\ where,n=number\: of\:moles\\V=volume\:of\:solution\:in\:L$

Molarity = 0.223 M

n = 0.250 moles

$V=\frac{n}{Molarity}=\frac{0.250}{0.223}=1.12108L=1121.08mL$

Therefore, 1121.08 millilitres of 0.223 M $KNO_{3}$ solution contains 0.250 moles of $KNO_{3}$ .

6 0

3 years ago

Someone help me with this plz due in 10 minutes ILl give brainly!!!

user100 [1]

Answer:

which one do u want help with?

Explanation:

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3 years ago

A beaker has 0.2 M of Na2SO4. What will be the concentration of sodium and sulfate ions?

enyata [817]

Answer:

Na+-0.0648M

SO4²-0.1352M

Explanation:

First find the R.A.M of the sodium sulphate

(23×2)+(32)+(16×4)=142

Find the portion of sodium ions=46/142×0.2

=0.0648M

Sulphate=

0.2-0.0648=0.1352M

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3 years ago

The electronic configuration of Na is_________.

sladkih [1.3K]

The answer:
[Ne] 3s¹

4 0

3 years ago