G propose a different reaction or method for the reduction of 9-fluorenone and show the mechanism

Answers

Answer 1

Answer:

There are several methods that can be used for the reduction of 9-fluorenone. One of the most common methods is the use of sodium borohydride (NaBH4) as a reducing agent.

The reaction mechanism for this method is as follows:

Step 1: The NaBH4 molecule donates a hydride ion (H-) to the carbonyl group of 9-fluorenone, forming an alkoxide intermediate.

Step 2: The alkoxide intermediate is then protonated by a proton source (such as water or an acid) to form the corresponding alcohol.

The overall reaction can be represented as:

9-fluorenone + NaBH4 + H2O → 9-fluorenol + Na+ + BH3OH-

Another method that can be used for the reduction of 9-fluorenone is the use of lithium aluminum hydride (LiAlH4) as a reducing agent. The reaction mechanism for this method is similar to that of the NaBH4 reduction, with the LiAlH4 molecule donating a hydride ion to the carbonyl group of 9-fluorenone and the resulting alkoxide intermediate being protonated to form the corresponding alcohol. The overall reaction can be represented as:

9-fluorenone + LiAlH4 + H2O → 9-fluorenol + Li+ + AlH3OH-

Both of these methods are effective for the reduction of 9-fluorenone, and the choice of which method to use will depend on the specific conditions and requirements of the reaction.

More on reduction reactions can be found here: brainly.com/question/27939413

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Related Questions

A compound contains only carbon, hydrogen, nitrogen, and oxygen. Combustion of a 2.18 g sample burns in excess oxygen yields 3.94 g of CO2 and 1.89 g of H2O. A separate experiment shows that a 1.23 g sample contains 0.235 g of N. Calculate the moles of C in the sample.1. Calculate the moles of N for a 2.18 g sample (the sample size for the other analyses).2. Calculate the moles of O in the sample.
The calcium carbonate found in limestone was originally extracted from _______.a. seawaterb. shalec. magmad. silt
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Which of the following is considered to be a dangerous procedure in the laboratory setting? a. Pouring all liquids, especially acids and bases, over the sink b. Wearing goggles c. Pushing glass tubing, thermometers, or glass thistle tubes through a rubber cork d. Pointing the mouth of a test tube that is being heated away from you and others e. Knowing where the fire extinguisher and eyewash stations are located
The speed in which the moon orbits the earth is 500 mph. a. Trueb. False

What is difference between creek,river and stream

Answers

the difference is size: you can step over a brook, jump over a creek, wade across a stream, and swim across a river.

How many joules are needed to warm 45.0 grams of water from 30.0 degrees C to 75.0 degrees C?

Answers

Answer : The amount of heat needed are, 8464.5 J

Explanation :

Formula used :

$q=m* c* (T_(final)-T_(initial))$

where,

q = heat gained = ?

m = mass of water = 45.0 g

c = specific heat of water = $4.18J/g^oC$

$T_(final)$ = final temperature = $75.0^oC$

$T_(initial)$ = initial temperature = $30.0^oC$

Now put all the given values in the above formula, we get:

$q=45.0g* 4.18J/g^oC* (75.0-30.0)^oC$

$q=8464.5J$

Thus, the amount of heat needed are, 8464.5 J

q=m x Cp x ∆T

m is the mass of the water, Cp is the specific heat of water and ∆T is the change in temperature of the water (final-initial temperature). q is the energy involved in the reaction, measured in joules.

q=(45.0) x (4.184 Jg^-1/°C^-1) x (45°C)
q=8472.6 Joules

A) How many moles of gold atoms are present in a 295-gram sample of gold? B) How many gold atoms would there be in the sample?

Answers

The molar mass of gold, Au, as seen on the periodic table, is 196.97 grams per mole. So, do this to find the number of moles in a 295 gram sample:

$(295g\ Au)((1mol\ Au)/(196.97g\ Au)) = 1.49769mol\ Au$

So, a 295 gram sample of gold has about 1.5 moles of gold in it.

To find the number of atoms, multiply the number of moles by Avogadro's number:

$(1.49769mol\ Au)((6.022*10^(23)\ atoms)/(mol)) = 9.02 * 10^(23)\ atoms\ Au$

5 gram of 197 Au contain 1.53*10^22 atoms. so just multiply that with 59 to get 295 grams :)

Can someone help me with my chemistry homework?!

Answers

Answer:

calculate grams and use mole ratio lol

Explanation:

Answer:

Explanation:

Which statement describes an intensive property of matter?A. It is the same for every sample of a single substance.
B. It depends on how a substance was formed.
C. It is the same for every sample of every substance.
D. It depends on the amount of substance present.

Answers

Among the choices above, I think the statement that best describes an intensive property of matter is letter B which is " It depends on how a substance was formed." Intensive properties are those property which does not depend upon the amount of substance present in the system. Such as refractive-index, density etc

An intensive property of matter is independent of the amount of substance present and is inherent to the material itself. Thus, the correct statement is 'It is the same for every sample of a single substance.' Examples of intensive properties include temperature, density, and color.

An intensive property of matter is a characteristic that does not change based on the amount of a substance. It is independent of the quantity of the substance present and is inherent to the material itself. Therefore, the statement which best describes an intensive property of matter would be 'It is the same for every sample of a single substance.'

Examples of intensive properties include temperature, density, and color. For instance, if you divide a gold bar in half, each half will have the same density and color as the original bar, because these properties are independent of the amount of substance present.

Learn more about Intensive Property here:

brainly.com/question/24672553

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Help! answer 7 & 9 please.

Answers

Answer:

7 : I think it is because heat rises, and to make the hot air balloon ride is the fire torch inside it.

Explanation:

I donno 9

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