Based on the results obtained;
- Solute A is solute in water
- A graph of the amount of solute dissolved against temperature helped to determine solubility for both substances for temperatures 20 °C to 80 °C.
<h3>What is the solubility of a substance?</h3>
The solubility of a substance of substance is the amount of that substance that dissolves in a given volume of solution or solvent.
The solubility of substances vary from one substance to another,
Some factors that affect the solubility of substances include:
- temperature - the solubility of solids generally increases with temperature while the solubility of gases decrease with temperature and vice versa
- pressure - the solubility of gases increase with increase in pressure and vice versa
- nature of substance -some solutes generally have higher solubilities than others in a given solvent.
- nature of solvent - based on the principle of like dissolves like, polar solutes dissolve in polar solvents whereas non-polar solute dissolve better in non-polar solvents.
Learn more about solubility at: brainly.com/question/24057916
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Answer:
The area will experience a short-term economic boom
The area will experience a downturn once all of the available resources are mined
Explanation:
Hope this helps
<span>D. Natural Disaster </span>
<h2>Correct Answer is option "d"</h2>
Explanation:
- Heroine is an drug of opiod plant which is made up of from morphine,a natural substance which taken from the seed pod of the different opium poppy plants.
- Heroine is found in various form such as in white powder and brown powder.
- Other common names for heroine are horse,smack & hell dust.
- People takes heroine in different route of administration such as few people smoke it, some inject, or other used as sniff etc.
- Heroine enter in brain rapidly and combined with opiod receptors on cells ,it involve in pain and pleasure,controlling heart rate etc.
- It show both effects short term and long term effect on the brain and body.
- Hence, the correct answer is option d "Heroine"
Answer:
NADH
Explanation:
Electron carriers such as NADH produced during glycolysis and the Krebs cycle pass their electrons to the electron transport chain, which results in synthesis of a lot of ATP.
