What volume of $0.8M$ solution contains $0.1$ mole of solute?
Answer
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Hint: The properties of a material might be depicted from multiple points of view. Any measure of any substance will have a volume. On the off chance that you have two compartments of water that are various sizes, they each hold an alternate sum, or volume, of water. The unit for volume is a unit got from the SI unit of length and is certainly not a basic SI estimation.
Complete answer:
We have recently characterized arrangements as homogeneous blends, implying that the creation of the combination is uniform all through its whole volume. Arrangements happen as often as possible in nature and have likewise, been carried out in numerous types of artificial innovation. We will investigate a more intensive therapy of arrangement properties in the part on arrangements and colloids, yet here we will present a portion of the essential properties of arrangements.
The general measure of a given arrangement segment is known as its focus. Regularly however, not generally an answer contains one segment with a focus that is altogether more prominent than that of any remaining parts. This segment is known as the dissolvable and might be seen as the medium in which different parts are scattered, or broken down. Arrangements in which water is the dissolvable are, obviously, normal on our planet. An answer in which water is dissolvable is called a fluid arrangement.
$Molarity = \dfrac{{No.{\text{ of moles}}}}{{Volume\left( L \right)}}$
(or)
$Volume = \dfrac{{No.{\text{ of moles}}}}{{Molarity}}$
Where,
No. of moles = $0.1$ ,
Molarity = $0.8M$
Applying both the values in the volume formula,
$Volume = \dfrac{{0.1mol}}{{0.8M}}$
Therefore,
$Volume = 0.125L = 125mL$
Note:
A solute is a part of an answer that is regularly present at a much lower fixation than the dissolvable. Solute fixations are frequently portrayed with subjective terms, for example, weaken and thought. Molarity is a helpful focus unit for some applications in science. Molarity is characterized as the quantity of moles of solute in precisely one liter of the solution.
Complete answer:
We have recently characterized arrangements as homogeneous blends, implying that the creation of the combination is uniform all through its whole volume. Arrangements happen as often as possible in nature and have likewise, been carried out in numerous types of artificial innovation. We will investigate a more intensive therapy of arrangement properties in the part on arrangements and colloids, yet here we will present a portion of the essential properties of arrangements.
The general measure of a given arrangement segment is known as its focus. Regularly however, not generally an answer contains one segment with a focus that is altogether more prominent than that of any remaining parts. This segment is known as the dissolvable and might be seen as the medium in which different parts are scattered, or broken down. Arrangements in which water is the dissolvable are, obviously, normal on our planet. An answer in which water is dissolvable is called a fluid arrangement.
$Molarity = \dfrac{{No.{\text{ of moles}}}}{{Volume\left( L \right)}}$
(or)
$Volume = \dfrac{{No.{\text{ of moles}}}}{{Molarity}}$
Where,
No. of moles = $0.1$ ,
Molarity = $0.8M$
Applying both the values in the volume formula,
$Volume = \dfrac{{0.1mol}}{{0.8M}}$
Therefore,
$Volume = 0.125L = 125mL$
Note:
A solute is a part of an answer that is regularly present at a much lower fixation than the dissolvable. Solute fixations are frequently portrayed with subjective terms, for example, weaken and thought. Molarity is a helpful focus unit for some applications in science. Molarity is characterized as the quantity of moles of solute in precisely one liter of the solution.
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