Answer:
Explanation:
1.The monomers of carbohydrates are called <u>monosaccharides</u>. Examples are <u>glucose</u> and <u>fructose</u>. When we bond together 2 monosaccharides together by <u>dehydration synthesis</u> we get what’s called a <u>disaccharide</u>. Examples of disaccharides are <u>sucrose</u> and <u>maltose</u>. When many <u>monosaccharides</u> are connected by <u>glycosidic linkages </u>we call it a <u>polysaccharide</u>. The prefix <u>poly</u> refers to many. Examples of polysaccharides include <u>starch</u> in plants and <u>amylose</u> in animals.
I think you may need to re-post your question.
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Answer:
spindle fibres
Explanation:
during mitosis/meiosis spindle fibres form and pull the chromosomes to each end
The answer to this is false
The best explanation for the greater rate of transport for solute A than for solute B at higher solute concentrations is that there are more frequent collisions of molecules of A than that of B.
<h3>How does concentration affect transport of molecules</h3>
- Concentration is the amount of solute dissolved in a given volume of solution.
Given two solutions A and B of different concentrations, The solution of higher concentration will have a higher amount of dissolved solutes.
Given A has a higher concentration, the solutes will collide with themselves much more than in B.
Hence, the molecules of A will tend to move faster than that of B.
Therefore, the best explanation for the greater rate of transport for solute A than for solute B at higher solute concentrations is that there are more frequent collisions of molecules of A than that of B.
Learn more about rate of transport at: brainly.com/question/187662
