How does biodiversity help sustain a population in an area

Answers

Answer 1

Answer: Having a variety is always good you never want to have too much of one thing. It helps with the food chain its basically survival of the fittest

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What is this section of the periodic table called

Answers

Answer:

Noble Gases

Explanation:

They all have complete outer shells. They're also on column 18 :)

3.72 short tons into mg

Answers

Both are the unit of mass.

1 short ton = 2000 pounds

1 short ton = 907.18474 kg

Thus, 3.72 short ton = $907.18474 kg * 3.72$

= 3,374.727 kg

Now, convert kg to mg:

1 kg = 10,00,000 mg

Therefore,

3.72 short tons = $3,374.727 kg * 10,00,000$

= $3.3747 * 10^(9) mg$

Hence, 3.72 short tons = $3.3747 * 10^(9) mg$

Aqueous solutions of chromium(III) iodide and potassium hydroxide react to give a chromium(III) hydroxide precipitate and aqueous potassium iodide.Express your answer as a chemical equation. Identify all of the phases in your answer. Enter noreaction if there is no reaction.

Answers

CrI₃ (aq) + 3 KOH (aq) → Cr(OH)₃ (s) + 3 KI (aq)

Explanation:

The chemical reaction between chromium (III) iodide (CrI₃) and potassium hydroxide (KOH):

CrI₃ (aq) + 3 KOH (aq) → Cr(OH)₃ (s) + 3 KI (aq)

where:

(aq) - aqueous

(s) - solid

The reaction will produce solid chromium(III) hydroxide (Cr(OH)₃) and KI aqueous potassium (KI).

Learn more about:

problems with chromium(III) salts

brainly.com/question/9821533

#learnwithBrainly

Explain difference in appearance between a pure substance and a mixture.

Answers

A pure substance is a substance which cannot be separated physically or chemically. It is the same wherever found on earth. For example, pure gold is a pure substance. It will be the same whether it is found where you live or on another country. A mixture can be either homogeneous or heterogeneous. A homogeneous mixture is a mixture that looks the same throughout but is made of more than one element. An example of this would be salt and water mixture. A heterogeneous mixture is a mixture in which you can easily identify the different parts which make it up. An example of this would be pizza. Both these mixtures can be broken into different parts either physically or chemically.

Hope it helps :)

a pure substance means its like a natural substance that has not been tampered with, such as sodium. but when sodium is mixed with chlorine it becomes sodium chloride( table salt), which is a mixture.

You want to prepare a solution with a concentration of 200.0μM from a stock solution with a concentration of 500.0mM. At your disposal, you have 5-mL and 10-mL transfer pipets and volumetric flasks of sizes 100, 250, 500, and 1000mL. Which of the following serial dilutions will give you the 200.0μM solution?

Answers

Answer:

1) The dilution scheme will result in a 200μM solution.

2) The dilution scheme will not result in a 200μM solution.

3) The dilution scheme will not result in a 200μM solution.

4) The dilution scheme will result in a 200μM solution.

5) The dilution scheme will result in a 200μM solution.

Explanation:

Convert the given original molarity to molar as follows.

$500mM = 500mM * ((1M)/(1000M))= 0.5M$

Consider the following serial dilutions.

Dilute 5.00 mL of the stock solution upto 500 mL . Then dilute 10.00 mL of the resulting solution upto 250.0 mL.

Molarity of 500 mL solution:

$M_(2)= (M_(1)V_(1))/(V_(2))= ((0.5M)(5.00mL))/(500 mL)= 5 * 10^(-3)M$

10 mL of this solution is diluted to 250 ml

$M_(final)= (M_(2)V_(2))/(V_(final))= ((5 * 10^(-3)M)(10.0mL))/(250 mL)= 2 * 10^(-4)M$

Convert μM :

$2 * 10^(-4)M = (2 * 10^(-4)M)((1 \mu M)/(10^(-6)M))= 200 \mu M$

Therefore, The dilution scheme will result in a 200μM solution.

Dilute 5.00 mL of the stock solution upto 100 mL . Then dilute 10.00 mL of the resulting solution upto 1000 mL.

Molarity of 100 mL solution:

$M_(2)= (M_(1)V_(1))/(V_(2))= ((0.5M)(5.00mL))/(100 mL)= 2.5 * 10^(-2)M$

10 mL of this solution is diluted to 1000 ml

$M_(final)= (M_(2)V_(2))/(V_(final))= ((2.5 * 10^(-2)M)(10.0mL))/(1000 mL)= 2.5 * 10^(-4)M$

Convert μM :

$2.5 * 10^(-4)M = (2.5 * 10^(-4)M)((1 \mu M)/(10^(-6)M))= 250 \mu M$

Therefore, The dilution scheme will not result in a 200μM solution.

Dilute 10.00 mL of the stock solution upto 100 mL . Then dilute 5 mL of the resulting solution upto 100 mL.

Molarity of 100 mL solution:

$M_(2)= (M_(1)V_(1))/(V_(2))= ((0.5M)(10mL))/(100 mL)= 0.05M$

5 mL of this solution is diluted to 1000 ml

$M_(final)= (M_(2)V_(2))/(V_(final))= ((0.05M)(5mL))/(1000 mL)= 0.25 * 10^(-4)M$

Convert μM :

$0.25 * 10^(-4)M = (0.25 * 10^(-4)M)((1 \mu M)/(10^(-6)M))= 25 \mu M$

Therefore, The dilution scheme will not result in a 200μM solution.

Dilute 5 mL of the stock solution upto 250 mL . Then dilute 10 mL of the resulting solution upto 500 mL.

Molarity of 250 mL solution:

$M_(2)= (M_(1)V_(1))/(V_(2))= ((0.5M)(5mL))/(250 mL)= 0.01M$

10 mL of this solution is diluted to 500 ml

$M_(final)= (M_(2)V_(2))/(V_(final))= ((0.01M)(10mL))/(500 mL)= 2 * 10^(-4)M$

Convert μM :

$2 * 10^(-4)M = (2 * 10^(-4)M)((1 \mu M)/(10^(-6)M))= 200 \mu M$

Therefore, The dilution scheme will result in a 200μM solution.

Dilute 10 mL of the stock solution upto 250 mL . Then dilute 10 mL of the resulting solution upto 1000 mL.

Molarity of 250 mL solution:

$M_(2)= (M_(1)V_(1))/(V_(2))= ((0.5M)(10mL))/(250 mL)= 0.02M$

10 mL of this solution is diluted to 1000 ml

$M_(final)= (M_(2)V_(2))/(V_(final))= ((0.02M)(10mL))/(1000 mL)= 2 * 10^(-4)M$

Convert μM :

$2 * 10^(-4)M = (2 * 10^(-4)M)((1 \mu M)/(10^(-6)M))= 200 \mu M$

Therefore, The dilution scheme will result in a 200μM solution.

______ is a method of identifying a substance based on unique patterns of energy absorption and emission. A. Assimilation
B. Taxonomy
C. Categorization
D. Spectrometry

Answers

The answer is C, Categorization.

Im pretty sure its B. sorry if its wrong....

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