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3 years ago

Which the following is an example of an organic compound that contains an attached hydroxyl group?

Chemistry

2 answers:

kifflom [539]3 years ago

4 0

Answer:

Alcohol is an example of an organic compound that contains an attached hydroxyl group.

Explanation:

Ester has the general formula of RCOOR'.Where R and R' can be same or different alkyl groups.

Alcohol has hydroxl group which act as functional group in alcohols attached to carbon chain.

They have general formula of ROH. Where R is an alkyl group.

Aldehydes has carbonyl group which act as functional group in aldehydes attached to carbon chain from only one side .

They have general formula of R-CHO. Where R is an alkyl group.

Ketones has carbonyl group which act as functional group in ketones, attached to carbon chains from both the sides .

They have general formula of R-(CO)-R'.Where R and R' can be same or different alkyl groups.

Dafna11 [192]3 years ago

3 0

The correct answer is the second option. Alcohol is the organic compound which is attached to a hydroxyl group. This group is a functional group which consists of a hydrogen atom bonded covalently to an oxygen atom which is found in sugars and alcohols.

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What type of bond would occur between carbon (C) and nitrogen (N)

FrozenT [24]

Answer:

covalent

Explanation:

The carbon and the nitrogen very often form bonds in nature, carbon-nitrogen bonds, which are covalent types of bonds. In fact, the bonds between the carbon and nitrogen are one of the most abundant in the biochemistry and the organic chemistry. The bonds between these two can be double bonds, as well as triple bonds. The carbon-nitrogen bonds have the tendency to be strongly polarized toward the nitrogen.

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4 years ago

An area in the desert where water is found is known as an.

lbvjy [14]

Answer:

Oasis

Explanation:

An area in the desert that has water in it is called an oasis.

6 0

2 years ago

wo reactions and their equilibrium constants are given. A + 2 B − ⇀ ↽ − 2 C K 1 = 2.57 2 C − ⇀ ↽ − D K 2 = 0.226 A+2B↽−−⇀2CK1=2.

Papessa [141]

Answer: The value of equilibrium constant for the net reaction is 11.37

Explanation:

The given chemical equations follows:

Equation 1: $A+2B\xrightarrow[]{K_1} 2C$

Equation 2: $2C\xrightarrow[]{K_2} D$

The net equation follows:

$D\xrightarrow[]{K} A+2B$

As, the net reaction is the result of the addition of first equation and the reverse of second equation. So, the equilibrium constant for the net reaction will be the multiplication of first equilibrium constant and the inverse of second equilibrium constant.

The value of equilibrium constant for net reaction is:

$K=K_1\times \frac{1}{K_2}$

We are given:

$K_1=2.57$

$K_2=0.226$

Putting values in above equation, we get:

$K=2.57\times \frac{1}{0.226}=11.37$

Hence, the value of equilibrium constant for the net reaction is 11.37

6 0

3 years ago

Increasing temperature can:

umka21 [38]

The answer would be A. You cannot decrease mass because of increasing temp so it can't be C and adding neutrons or protons would be changing the atom and therefore the element, and that is not possible through just an increase of temperature, so it can't be B or D. Hope this was helpful! ;)

3 0

4 years ago

Read 2 more answers

The oxidation state of Mn2

kvasek [131]

The oxidation state of Mn2 is 2+

7 0

3 years ago