Answer:
A. The new molarity of the diluted solution is 1.0176 M
B. The new molarity of the diluted solution is 0.9947 M
C. 20 mL of volume is required to prepare 100ml of 1 M NaOH
Step-by-step explanation:
Part A:
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This problem will be solved by using the following formula
M₁V₁ = M₂V₂ (1)
Given Data:
Initial Molarity of Solution M₁ = 3.24 M
Initial volume V₁ = 1.25 L
Initial volume V₂ = 3.98 L
Final Molarity M₂= ?
Put the values in formula 1
3.24 M x 1.25 L = M₂ x 3.98 L
By Rearranging
M₂ = 3.24 M x 1.25 L / 3.98 L
M₂ = 4.05 / 3.98
M₂ = 1.0176 M
The new molarity of the diluted solution is 1.0176 M
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Part B:
This problem will be solved by using the following formula
M₁V₁ = M₂V₂ (1.1)
Given Data:
Initial Molarity of Solution M₁ = 7.0 M
Initial volume V₁ = 270 mL
As the initial volume is in ml and final volume in Litre (L)
So we have to convert mL to L
1000ml= 1L
270 ml = ? L
1 x 270/ 1000 = 0.27 L
So
Initial volume V₁ = 0.27 L
Initial volume V₂ = 1.9 L
Final Molarity M₂= ?
Put the values in formula 1.1
M₁V₁ = M₂V₂
7.0 M x 0.27 L = M₂ x 1.9 L
By Rearranging
M₂ = 7.0 M x 0.27 L / 1.9 L
M₂ = 1.89 / 1.9
M₂ = 0.9947 M
The new molarity of the diluted solution is 0.9947 M
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Part 3
This problem will be solved by using the following formula
M₁V₁ = M₂V₂ (1.2)
Given Data:
Initial Molarity of Solution M₁ = 5 M
Initial volume V₁ = ? mL
Initial volume V₂ = 100 mL
Final Molarity M₂= 1 M
Put the values in formula 1.2
M₁V₁ = M₂V₂
5 M x V₁ = 1 M x 100 mL
By Rearranging
V₁ = 1 M x 100 mL/ 5 M
V₁ = 100 / 5
V₁ = 20
20 mL of volume is required to prepare 100ml of 1 M NaOH