Salt lakes are formed when the water flowing into the lake, containing salt or minerals, cannot leave because the lake is terminal. The water then evaporates, leaving behind any dissolved salts and hence increasing its salinity, making a salt lake.

The best answer here is c. The water flowing in to salt lakes contains minerals. Also of course the presence of the water in the lake may dissolve out underlying salts into solution in the water of the lake. When such a mineral rich body of water evaporates this then leaves behind the salt lake feature.

Salt lakes are usually defined as the lakes which are formed from the inflow of water comprising of dominantly salt and other minerals. This lake forms the terminal end, where the water (carrying salt particles) are accumulated and there is no outlet for it. These water eventually gets evaporated, and there remain only the dissolved salts, which forms a favourable place for the extensive production of salts.

So, one of the characteristics of salt water that is true is the flowing into the salt lakes are comprised of minerals (salt).

b. Salt lakes are formed when river bends are cut off.

Salt lakes are formed when water from water sourced gets accumulated in a shallow region and the supply of water is cut. These salt lakes are terminal which means water does not flow to other locations. Therefore, salt lakes are formed when river bends are cut off.

Suppose that Lake Parsons had initially x liters of water in it. These x liters of water were actually a solution that also contained salts, specifically y gr of salts in total. We are adviced to assume that initially the salt concentration was 4.8g/l, hence we have that y/x=4.8 g/l . During the evaporation of the lake, we have that only water evaporated; let us call the new quantity of water z. The quantity of salts in the lake remained y (salts do not evaporate). Similarly, we have that y/z=55.82 g/l. By our first equation, we have that y=4.8*x. Substituting, we get that [tex]\frac{x*4.8}{z} = 55.82[/tex] . Solving for z/x we get: [tex]\frac{x}{z} = \frac{55.82}{4.8}[/tex] hence z/x= 0.086. Thus the final water that remains is 8.60% of the initial water. Hence, 100%-8.60%=91.40% of the lake's water has evaporated.

A) The water flowing in to salt lakes comes directly from the ocean.

Hope this helps!

Explanation:

Salt lakes are formed when the water flowing into the lake, containing salt or minerals, cannot leave because the lake is terminal. The water then evaporates, leaving behind any dissolved salts and hence increasing its salinity, making a salt lake.

The best answer here is c. The water flowing in to salt lakes contains minerals. Also of course the presence of the water in the lake may dissolve out underlying salts into solution in the water of the lake. When such a mineral rich body of water evaporates this then leaves behind the salt lake feature.

I think its c correct me if im wrong

It’s c

Explanation:

Answer : 91.41%Explanation :

As per geologist measurement, the given salt concentration of Lake Parsons (isolated one) : 55.82 g/L

salt concentration of other Lakes (non-isolated ones) : 4.8 g/L

Simply calculating by taking the ratios of the salts found in both the areas;

[tex]\frac{55.82 g/l}{4.8 g/l}[/tex] = 11.629

Which indicates that the salinity of Lake Parsons is 11.629 times higher. And the evaporation of the lake also increased with it.

To know the exact amount in percent taking the ratio with 100 and 11.629 we get;

∴ [tex]\frac{100}{11.629}[/tex] = 8.59 %

Also, to find the %lost we have to subtract this value from 100

100 - 8.59 = 91.41%.

∴ The total percentage of lake parson which has evaporated since it became isolated is 91.41%.

Option (C)

Explanation:

Salt lakes are usually defined as the lakes which are formed from the inflow of water comprising of dominantly salt and other minerals. This lake forms the terminal end, where the water (carrying salt particles) are accumulated and there is no outlet for it. These water eventually gets evaporated, and there remain only the dissolved salts, which forms a favourable place for the extensive production of salts.

So, one of the characteristics of salt water that is true is the flowing into the salt lakes are comprised of minerals (salt).

Thus, the correct answer is option (C).

b. Salt lakes are formed when river bends are cut off.

Salt lakes are formed when water from water sourced gets accumulated in a shallow region and the supply of water is cut. These salt lakes are terminal which means water does not flow to other locations. Therefore, salt lakes are formed when river bends are cut off.

Suppose that Lake Parsons had initially x liters of water in it. These x liters of water were actually a solution that also contained salts, specifically y gr of salts in total. We are adviced to assume that initially the salt concentration was 4.8g/l, hence we have that y/x=4.8 g/l . During the evaporation of the lake, we have that only water evaporated; let us call the new quantity of water z. The quantity of salts in the lake remained y (salts do not evaporate). Similarly, we have that y/z=55.82 g/l. By our first equation, we have that y=4.8*x. Substituting, we get that [tex]\frac{x*4.8}{z} = 55.82[/tex] . Solving for z/x we get: [tex]\frac{x}{z} = \frac{55.82}{4.8}[/tex] hence z/x= 0.086. Thus the final water that remains is 8.60% of the initial water. Hence, 100%-8.60%=91.40% of the lake's water has evaporated.

B) yes, because the new sentence shows the link between the ideas.