Organic Derivatives of Water

Question 1

can be classified based on
the number of alkyl groups attached
to the carbon that contains the
hydroxyl group

Answer 1

alcohol

Question 2

react with various oxidizing agents

Answer 2

primary and secondary alcohol

Question 3

alcohols that are
unreactive, but most reactive to
nucleophilic substitution in Lucas
reagent

Answer 3

tertiary alcohol

Question 4

quite reactive
to nucleophilic substitution

Answer 4

secondary alcohol

Question 5

unreactive to
nucleophilic substitution

Answer 5

primary alcohol

Question 6

only oxidized only by the
strongest oxidative agents

Answer 6

phenol

Question 7

useful chemical
test for determining phenols from
alcohols

Answer 7

ferric chloride test

Question 8

generally unreactive as it
has a very stable bond

Answer 8

ethers

Question 9

organic derivatives of water include

Answer 9

hydroxyl
carbonyl
carboxyl
amine
ester
ether
thiol

Question 10

materials and reagent needed for test of organic derivatives of water

Answer 10

1-butanol
2-butanol
2-methyl-2-propanol
cyclohexanol
ethylene glycol
Phenol
2-napthtol

Question 11

Bayer’s reagent

Answer 11

KmnO4

Question 12

Sodium dichromate

Answer 12

Na2Cr2O7

Question 13

sulfuric acid

Answer 13

H2SO4

Question 14

reagents needed

Answer 14

lucas reagent
Bayer’s reagent
1.00M Sodium dichromate
Sulfuric acid
Ferric Chloride
Distilled Water
1.00M NaOH
Iodine solution
sodium metal

Question 15

equipment needed

Answer 15

Test tube
Pasteur pipettes

Question 16

corrosive substances used

Answer 16

phenol
conc. sulfuric acid
sodium dichromate
NaOH

Question 17

what to do
with corrosive substances

Answer 17

avoid skin contact

Question 18

its vapor is toxic, so
avoid inhalation

Answer 18

diethyl ether

Question 19

how many drops of the following are placed on separate dry test tube:

Answer 19

➢ 1-butanol
➢ 2-butanol
➢ 2-methyl-2-propanol
➢ Cyclohexanol
➢ Ethylene glycol
➢ Phenol
➢ 2-napthtol

Question 20

procedures of solubility in water

Answer 20

2 mL of distilled water
shake and observe

Question 21

procedures of acidic properties of alcohols (using sodium metal)

Answer 21

add a small piece of dry sodium metal
add 2 mL of each sample,
observe the rate of evolution of
hydrogen gas

Question 22

test for solubility in NaOh

Answer 22

5 drops of NaOH
shake and observe solubility

Question 23

Bayer’s oxidation

Answer 23

5 drops of Bayer’s reagent,
shake and observe

Question 24

chromic acid oxidation

Answer 24

add 5 mL of Na2Cr2O7
2 drops of conc. H2SO4,
and add 2 drops of sample, observe.

Question 25

lucas test

Answer 25

add 2mL of Lucas reagent,
add sample,
seal the test tube
shake and observe reaction

Question 26

ferric chloride test

Answer 26

add small amount of sample
add 1 mL of deionized water
and add several drops of 2.5 M aqueous ferric chloride solution
shake and observe reaction.

Question 27

compounds tested that are soluble in water

Answer 27

1-butanol
2-methyl-2propanol
ethylene glycol

Question 28

what bonds do 1- butanol, 2-methyl-2-propanol and
ethylene glycol have with water
molecules

Answer 28

hydrogen bonds

Question 29

where the water has a
slightly positive charge on this

Answer 29

hydrogen

Question 30

where the water has a
slightly negative charge on these

Answer 30

oxygen

Question 31

contains hydroxyl (-OH)
group, which is the functional group
responsible for its solubility in water,
the oxygen atom in the hydroxyl
group can form hydrogen bonds with
water molecules, allowing 1-butanol
to dissolve in water

Answer 31

1-butanol

Question 32

contains a
hydroxyl group, enabling it to form
hydrogen bonds with water
molecules. The presence of a
branched alkyl group does not
significantly affect its solubility since
the hydroxyl group is the main
determining factor

Answer 32

2-methyl-2-propanol

Question 33

• is a diol, meaning it
  contains two hydroxyl groups. These
  hydroxyl groups can also form
  hydrogen bonds with water
  molecules, facilitating its solubility.
  Additionally, ethylene glycol has a
  small molecular size, further
  enhancing its solubility in water

Answer 33

ethylene glycol

Question 34

not soluble in water
compared to other alcohols due to it
having a bulky cyclohexyl group attached to the hydroxyl (-OH)
functional group.

Answer 34

cyclohexanol

Question 35

introduces a
significant nonpolar component to
the molecule, making it less
compatible with the polar nature of
water

Answer 35

cyclohexyl group

Question 36

The nonpolar nature
of the cyclohexyl group makes this
more hydrophobic, or waterrepellent.

Answer 36

cyclohexanol

Question 37

qualities that can influence solubility and insolubility in water

Answer 37

presence of polar functional groups
size and shape
hydrophobicity

Question 38

results of acidic properties of alcohol using sodium metal

Answer 38

1-butanol - positive
2-butanol - positive
2-methyl-2-propanol - positive

Question 39

is an organic compound
with a hydroxyl group bound to an
aliphatic carbon atom

Answer 39

alcohol

Question 40

this character of alcohol is
revealed through its reactions with
active metals.

Answer 40

acidic

Question 41

reason of acidity of
alcohol which decreases as the
electron density on the oxygen atom
increases

Answer 41

polarity of OH

Question 42

primary alcohol that is
more acidic than secondary and
tertiary alcoho

Answer 42

1-butanol

Question 43

exhibit a faster
reaction when combined with the
sodium metal and the evident release
of hydrogen gas

Answer 43

primary alcohol

Question 44

in this, there is a
decrease in acidity strength due to
the addition of alkyl group on carbon

Answer 44

tertiary alcohol

Question 45

result of chromic acid oxidation

Answer 45

1-butanol - positive
2-butanol - positive
2-methyl-2-propanol - negative

Question 46

• To test the oxidation of alcohol, the
  following are mixed together for the chromic oxidation test:

Answer 46

sodium dichromate (NaCr2O7)
sulfuric acid (H2SO4)

Question 47

products on oxidation depend on the
type of alcohol:

Answer 47

primary
secondary
tertiary

Question 48

tested positive in the chromic acid oxidation
due to the disappearance of the redorange color of chromic acid and the formation of a blue-green color of the Cr (III) ion

Answer 48

1-butanol, 2-butanol,

Question 49

formed if a sample is positive in the chromic acid
oxidation

Answer 49

chromium (III) ion

Question 50

as this oxidizes the C2O7 ions in the solution are reduced to chromium (III)

Answer 50

alcohol

Question 51

showed resistance to oxidation by
to the oxidizing agent

Answer 51

2-methyl-2-propanol

Question 52

• demonstrated by
  the retention of the solution’s original
  color in chromic acid oxidation

Answer 52

negative reaction

Question 53

process where the
hydrogen atom in the -OH and the αhydrogen atom on the carbon atom to
which the -OH is attached are
removed to form a C=O bond

Answer 53

oxidation

Question 54

does not contain an
α-hydrogen, the C=O cannot be
formed.

Answer 54

tertiary

Question 55

• formed via the oxidation of
  secondary alcohols

Answer 55

ketones

Question 56

formed via the oxidation of primary alcohols

Answer 56

aldehyde

Question 57

result of lucas test

Answer 57

1-butanol - negative
2-butanol - positive
2-methyl-2-propanol - positive

Question 58

its reactivity determines
whether they are classified as
primary, secondary, or tertiary. This
is due to the substitution of a
hydroxyl group produced from the
provided alcohol in place of the
chloride (Cl-) in the zinc-chloride
bond.

Answer 58

Lucas test

Question 59

after mixing the Lucas reagent with
this, a change of color from colorless
to slightly clear and white,
respectively, was seen.

Answer 59

2-butanol and 2-methyl-2-propanol

Question 60

remains colorless (no
reaction) in Lucas test

Answer 60

1-butanol

Question 61

the change of color of
the solution from clear to cloudy
suggests that this has been formed
and therefore indicates a positive
reaction for the Lucas test.

Answer 61

chloroalkane

Question 62

• are the most
  reactive to nucleophilic substitution
  in the Lucas reagent

Answer 62

tertiary alcohol

Question 63

are moderately
reactive in Lucas reagent

Answer 63

secondary alcohol

Question 64

are unreactive in
Lucas reagent

Answer 64

primary alcohol

Question 65

its
mechanism starts when the OH
group of alcohol is protonated by
hydrochloric acid

Answer 65

nucleophilic substitution

Question 66

is a stronger
nucleophile than water (H₂O),

Answer 66

chlorine

Question 67

formed in the
nucleophilic substitution in the Lucas
test

Answer 67

carbocation

Question 68

immediately attacks
the carbocation in the lucas test

Answer 68

chloride anion

Question 69

formed after the
chloride anion attacking the
carbocation

Answer 69

alkyl chloride

Question 70

is insoluble, making the
solution murky

Answer 70

alkyl chloride

Question 71

result of iodoform test

Answer 71

1-butanol - negative
2-butanol - positive
2-methyl-2-propanol - negative

Question 72

is used to
differentiate the ability of primary,
secondary, and tertiary alcohols to
undergo oxidation and form a yellow
precipitate called iodoform (CHI3)

Answer 72

iodoform test

Question 73

yellow precipitate that was
formed in the iodoform test

Answer 73

iodoform (CHI3)

Question 74

sample that has visible
yellow precipitate

Answer 74

2-butanol

Question 75

has no visible precipitate in the test

Answer 75

1-butanol and 2-methyl-2-propanol

Question 76

did not show iodoform because of them lacking a
methyl ketone group next to the carbonyl
group

Answer 76

1-butanol

Question 77

when iodine
(I2) was allowed to react with these
two compounds, it only produced a
colorless solution without any
precipitate.

Answer 77

1-butanol

Question 78

the solution
turning into a yellow color without
any visible precipitate in it and thus
inferring that tertiary alcohols does
not give the iodoform reaction

Answer 78

2-methyl-2-propanol

Question 79

• has shown a positive
  result indicated by the cloudy yellow
  precipitate seen in the test tube.
  Unlike 1-butanol, this has a methyl
  ketone group, which is essential for
  the iodoform to occur.

Answer 79

2-butanol

Question 80

result of ferric chloride test

Answer 80

phenol - positive
2-napthol - negative

Question 81

are organic
substances that have an aromatic
ring and a hydroxyl group directly
connected

Answer 81

phenol

Question 82

due to the phenol having
this, phenol reacts with ferric
chloride to produce colored
compounds

Answer 82

enol group

Question 83

what the phenol group
interacts with to generate a colored
complex, which is violet in color

Answer 83

ferric ion

Question 84

is created in the
ferric chloride test, , which results in
various colored water soluble
complex compounds, phenols react with ferric chloride solution to yield
blue, violet, or green coloring.

Answer 84

ferric phenoxide

Question 85

this hue in ferric
chloride test suggest that it is
produced by ortho, meta, or paracresol with resorcinol

Answer 85

violet or blue

Question 86

gives green color

Answer 86

beta-naphthol

Question 87

• gives pink color.

Answer 87

alpha-naphthol

Question 88

forms a
deep red colo

Answer 88

acetic acid and formic acid

Question 89

demonstrated a
negative reaction, as seen by its clear
yellowish hue, ferric chlorideoriginal color.

Answer 89

2-naphthol