300+ REAL TIME Engineering Chemistry Objective Questions & Answers 2023

250+ TOP MCQs on Photochemical Reactions and Answers

Engineering Chemistry Multiple Choice Questions on “Photochemical Reactions”.

1. The reactions which are caused by heat and in absence of light is called _____
a) Photochemical reactions
b) Dark reactions
c) Reversible reaction
d) Reversible photochemical reaction
Answer: b
Clarification: The reactions which are caused by heat and in absence of light are called thermal or dark reactions. A reaction that takes place by absorption of light radiations of a specific wavelength is called photochemical reaction.

2. In photochemical reactions, absorption of _____ radiations takes place.
a) ultraviolet and visible
b) radio
c) only visible
d) visible and x-rays
Answer: a
Clarification: Absorption of visible and ultraviolet radiations can only take place in a photochemical reaction. Wavelength of absprbed radiations ranges from 2000 – 8000 Å.

3. In photochemical reactions, the presence of light is not required for the reaction to take place.
a) true
b) false
Answer: b
Clarification: In photochemical reactions, presence of light is the primary requirement for the reaction to take place. It involves absorption of light radiations.

4. Ozone is formed by ______ dissociation of molecular oxygen into individual oxygen atoms.
a) photochemical
b) thermochemical
c) thermal
d) ionic
Answer: a
Clarification: Molecular oxygen undergoes photochemical dissociation into individual oxygen atoms. These oxygen atoms are reacted with molecular oxygen to form ozone.

5. Which of the following is an example of photochemical reaction?
a) Photosynthesis
b) Decomposition of ammonia
c) Formation of NaOH
d) Decomposition of HCl
Answer: a
Clarification: Photosynthesis is an example of photochemical reaction. In photosynthesis, light energy is captured by the chlorophyll present in the thylakoids of the chloroplast for the production of photons. Water is splitted by photons from light energy and it enables ATP production that drives the entire process.

6. Which of the following are the principle laws of photochemistry?
a) Grothus-Draper and Stark-Einstein law
b) Raoult’s and Dalton’s law
c) Raoult’s and Henry’s law
d) Lambert’s and Beer’s law
Answer: a
Clarification: Two fundamental principles of photochemistry are there. They are Grothus-Draper law and Stark-Einstein law.

7. Mercaptans can be produced by photochemical addition of ______ to alpha olefins.
a) hydrogen sulphide
b) sulphur
c) hydrogen
d) paraffins
Answer: a
Clarification: Mercaptans can be produced by photochemical addition of hydrogen sulfide to alpha olefins. In this method, there is a provision for increasing the total conversion of reactants to mercaptans by including carbon disulfide in the reaction mixture.

8. Vision is initiated by a photochemical reaction of ______
a) Rhodopsin
b) Hydrogen Chloride
c) Mercapton
d) Enzymes
Answer: a
Clarification: Vision is initiated by a photochemical reaction of rhodopsin. It is the primary photoreceptor molecule of vision.

9. Medicine bottles are often made with darkened glass _______
a) to prevent the drug from photodegradation
b) to allow the photodegradation of drug
c) to reduce the cost
d) to allow oxidation of drug
Answer: a
Clarification: Medicine bottles are often made with darkened glass to prevent the drugs from photodegradation. Generally, brown color is used because of its ability to prevent UV light from degrading the potentially photosensitive contents through photochemical reactions.

10. In _____ reactions, molecules absorbing light do not themselves react but induce other molecules to react.
a) Photosensitized
b) Thermal
c) Irreversible
d) Dark
Answer: a
Clarification: The reactions in which molecules absorbing light do not themselves react but induce other molecules to react are called photosensitized reactions. The reactions which are caused by heat and in absence of light is called thermal or dark reactions.

250+ TOP MCQs on Fibers and Answers

Engineering Chemistry Multiple Choice Questions on “Fibers”.

1. The tensile strength of the fiber is ______________
a) Very Low
b) Low
c) High
d) Intermediate

Answer: c
Clarification: The tensile strength of the fiber is high and depends upon the strength of the chemical bonds of the polymer chains.

2. Which of the following type of bonding maintains the alignment of chains of the polyester?
a) Vander Waal’s force
b) Dipole-dipole attraction
c) Hydrogen bonding
d) Covalent bonding

Answer: b
Clarification: Dipole-dipole attraction are induced due to the dipole formed by the alignment of negative and positive charges and hence this type of bonding maintains the alignment of chains of the polyester.

3. Nylon-66, PET and PAN all have T_g around ____________
a) 100 ⁰C
b) 200 ⁰C
c) 300 ⁰C
d) 500 ⁰C

Answer: a
Clarification: Nylon-66, PET and PAN all have T_g around 100 ⁰C. The glass-transition temperature T_g of a material characterizes the range of temperatures over which this glass transition occurs. It is always lower than the melting temperature, of the crystalline state of the material, if one exists.

4. Hydrogen bonding is responsible for maintaining the alignment of ____________
a) Stereoregular chains of isotactic polypropylene
b) Polyesters
c) Polyacrylonitrile
d) Polyamides

Answer: d
Clarification: Hydrogen bonding is responsible for maintaining the alignment of polyamides and polyurethanes. Polyamides are polymer of a type made by the linkage of an amino group of one molecule and a carboxylic acid group of another.

5. Nylon-6 can be prepared by ring opening polymerisation of ____________
a) Amino caproic acid
b) Caprolactum
c) Adipic acid
d) Terephthalic acid

Answer: b
Clarification: Nylon-6 can be prepared by ring opening polymerisation of caprolactum. Caprolactum has 6 carbons and hence, Nylon-6.

6. Which of the following is the third step for the synthesis of nylon-6?
a) Conversion of cyclohexane into cyclohexanone
b) Ring opening polymerisation of caprolactum
c) Conversion of cyclohexanone-oxime into caprolactum
d) Conversion of cyclohexanone into cyclohexanone-oxime

Answer: c
Clarification: Conversion of cyclohexane into cyclohexanone is the initial step. Then the second step is the conversion of cyclohexanone into cyclohexanone-oxime and then the conversion of cyclohexanone-oxime into caprolactum is the third step for the synthesis of nylon-6. Ring opening polymerisation of caprolactum is the last step.

7. The cyclohexanone is converted into cyclohexanone-oxime by ____________
a) Treatment with hydroxylamine
b) Oxidation
c) Reduction
d) Backmann rearrangement

Answer: a
Clarification: The cyclohexanone is converted into cyclohexanone-oxime by treatment with hydroxylamine because hydroxylamine act as a catalyst for this reaction. This is the second step for the synthesis of Nylon-6.

8. Nylon-6,6 is made by the condensation polymerisation of hexamethylene diamine and adipic acid in the molar ratio of ____________
a) 2 : 3
b) 1 : 2
c) 3 : 5
d) 1 : 1

Answer: d
Clarification: Nylon-6, 6 is made by the condensation polymerisation of hexamethylene diamine and adipic acid in the molar ratio of 1 : 1. Equivalent amounts of hexamethylene diamine and adipic acid are combined with water in a reactor.

9. The nylon-6, 6 have high crystallinity which imparts?
a) Low strength
b) Low meting point
c) Toughness and elasticity
d) Retention to poor mechanical properties

Answer: c
Clarification: The nylon-6, 6 have high crystallinity which imparts high strength, high melting point, elasticity, toughness and retention to good mechanical properties.

10. Nylons are polar polymers and have good hydrocarbon resistance.
a) True
b) False

Answer: a
Clarification: Nylons are polar polymers and have good hydrocarbon resistance. Nylon resins are widely used in the automobile industry especially in the engine compartment.

250+ TOP MCQs on Solid Fuels – 2 and Answers

Engineering Chemistry written test Questions & Answers focuses on “Solid Fuels – 2”.

1. In which area/city of India highest lignite deposits are present?
a) Travancore
b) Rajasthan
c) Neyveli
d) Malabar coast
Answer: c
Clarification: The deposits of lignite in Neyveli are estimated to be about 200 million tonnes. The Neyveli project is under the Lignite Corporation of India which produces millions of tonnes of lignite in India.

2. Which of the following lignite is black in colour?
a) Earthy coal
b) Laminated coal
c) Wood coal
d) Australian Morewell coal
Answer: b
Clarification: Schist is a type of laminated lignite coal which when extracted is of black colour rather than brown. The Australian morewell coal is brown in colour and is found in the hazelwood power station in Victoria, Australia.

3. Which product is obtained after the distillation of bituminous coal?
a) Coal tar
b) Coke
c) Charcoal
d) Coal gas
Answer: a
Clarification: Bituminous coal burns with a smoky yellow flame which on distillation gives coal tar which is bituminous in nature. Charcoal is produced by the destructive distillation of wood and coke is formed by the carbonisation of peat under certain conditions of temperature and pressure.

4. What amount of carbon is present in sub-bituminous coal in percentile?
a) 60-75%
b) 85-90%
c) 90-93%
d) 75-83%
Answer: d
Clarification: These coal are harder than lignite, they are black in colour and possess a dull waxy lustre. The bituminous coal contains 78-90% of carbon in them where as the semi-bituminous coal contains 90-93 % of carbon.

5. Which of the following coal is used widely in the world?
a) Peat
b) Lignite
c) Bituminous
d) Anthracite
Answer: c
Clarification: The largest deposits are of bituminous coal in the earth, its extraction is easier than that of anthracite coal and it does have a moderate ignition temperature. Lignite deposits are also present in large quantities but its ignition temperature is low and that of peat in extremely low.

6. Which of the following forms a group between bituminous coal and anthracite?
a) Semi-bituminous coal
b) Sub-bituminous coal
c) Semi-anthracite coal
d) Anthracite coal
Answer: a
Clarification: Semi-bituminous have both the characteristics of bituminous coal and anthracite, their carbon content is around 90-93%. The sub-bituminous coal forms a group between lignite and bituminous coal and contains 75-83 % carbon in them.

7. Which of the following areas of bituminous coal have high volatile matter?
a) Gondwana
b) Neyveli
c) Nilgiri hills
d) Raniganj
Answer: d
Clarification: The Raniganj coal mines have a total coal reserve of 49.17 billion tonnes which are spread across West Bengal and Jharkhand. It was established in 1975. The Neyveli coal field contains lignite in high quantities and Gondwana coal fields also contain bituminous coal. The Nilgiri Hills have deposits of peat in them.

8. Anthracite coal have a conchoidal fracture.
a) True
b) False
Answer: a
Clarification: Conchoidal fracture represents the way in which a brittle material break with making ripples. Anthracite coal forms a layer due to this fracture. This type of fractures are not formed in other types of coals which include peat, lignite and bituminous coal respectively.

9. Which colour flame does anthracite produces?
a) Yellow
b) Blue
c) Black
d) Colourless
Answer: b
Clarification: Due to the low percentage of volatile matter present in anthracite, it produces a very little flame which is blue in colour and is non-smoky. The bituminous coal produces a yellow smoky flame.

10. Why does anthracite is used in drying mal and hops?
a) Due to its high calorific value
b) Due to its low volatile matter
c) Due to low arsenic content present in it
d) Due to high carbon content present in it
Answer: c
Clarification: Anthracite contains less than 1 % of arsenic due to which it does not affect on the properties of mal and hops during their drying. Due to this reason we do not use semi-bituminous coal for drying mal and hops.

11. Which of the following anthracite coal is used in steel making?
a) High grade
b) Standard grade
c) Ultra high grade
d) Semi high grade
Answer: a
Clarification: Due to the presence of high carbon content in high grade anthracite, it is used for making steel. Standard grade anthracite is used as domestic fuel in industrial power generation. Ultra high grade anthracite coal are also known as smokeless coal.

12. Which area of India consists of high anthracite content?
a) Madhya Pradesh
b) Neyveli
c) Nilgiri
d) Darjeeling
Answer: d
Clarification: The Dalingkot coal fields near the foothills of Darjeeling are rich in anthracite deposits. In Madhya Pradesh bituminous deposits are present, which are part of Singrauli coal fields.

13. Why is the calorific value of anthracite less than that of semi-bituminous coal?
a) Due to high carbon content in it
b) Due to decrease in hydrogen content
c) Due to decrease in nitrogen content
d) Due to decrease in the content of volatile matter
Answer: b
Clarification: Calorific value is directly proportional to the percentile of hydrogen and it does not depend on the percentile of nitrogen. The volatile matter also does not affect the calorific value as they are not obtained after complete combustion.

14. Semi-bituminous coal are harder than anthracite coal.
a) True
b) False
Answer: b
Clarification: Anthracite are the highest grade of coal which consists of 93-98 % carbon is the hardest of all the coal. It has low volatile content. Semi-bituminous coal are softer than anthracite but harder than bituminous coal.

written questions on Engineering Chemistry,

250+ TOP MCQs on Synthetic Gasoline from Non-Petroleum Sources – 1 and Answers

Engineering Chemistry Multiple Choice Questions on “Synthetic Gasoline from Non-Petroleum Sources – 1”.

1. Which of the following is a non-petroleum source?
a) Alkanes
b) Cycloalkanes
c) Oil shales
d) Aromatic hydrocarbon
Answer: c
Clarification: In some countries such as Germany and South Africa, do not have extensive petroleum deposits, develop their motor fuels from non-spontaneous petroleum sources, such as oil shales, lignite and bituminous coal.

2. In Fischer-Tropsch which products are recovered?
a) Coal
b) Coal tar
c) Coal gas
d) Coke
Answer: b
Clarification: In this process, coal if first converted to coke and coal tar is recovered at the end. Many volatile liquid are also recovered along with coal tar. The coke formed is then heated and the stem is passed over the water gas produced.

3. Which catalyst is used in Fischer-Tropsch process to obtain olefins?
a) Cobalt
b) Nickel
c) Platinum
d) Silver
Answer: a
Clarification: The water gas formed by the coke is enriched in hydrogen and is passed over cobalt catalyst to give olefins. If nickel is used in place of cobalt, then gasoline and fuel oil is formed.

4. Which compound is obtained when cobalt-magnesia is used as a catalyst in Fischer-Tropsch process?
a) Heavy hydrocarbons
b) Olefins
c) Gasoline
d) High-grade diesel
Answer: d
Clarification: When mixed catalyst such as cobalt-magnesia are used as a catalyst in Fischer-Tropsch process, then high-grade diesel is obtained. Iron oxide with potassium carbonate produces heavy hydrocarbon.

5. At what temperature does the Fischer-Tropsch processes are carried out?
a) 200-300 ⁰C
b) 400-500 ⁰C
c) 0-100 ⁰C
d) 800-900 ⁰C
Answer: a
Clarification: Temperatures, ranging from 200-300 ⁰C and pressure upto 30 atmosphere are used for these processes. If the temperature range is deflected, then the process will not be carried out.

6. Which product is formed on the polymerisation of methylene created from Fischer-Tropsch process?
a) Diesel fuel
b) Hydrocarbons
c) Olefins
d) Gasoline
Answer: c
Clarification: The mechanism of reactions of Fischer-Tropsch process are
(CO + H₂) + H₂ → (CH₂)” + H₂O + 40 K-cals
Water gas Methylene
n(CH₂)” → C_nH_2n
Polymerisation Olefins
This is how olefins are produced.

7. In which form does the catalyst is used in Fischer-Tropsch process?
a) In pure form
b) In the form of oxides
c) In the form of nitrites
d) In the form of complex compounds
Answer: b
Clarification: The catalyst all of which contain metals of VIII group of the periodic table (Fe, Co and Ni), seem to function mainly through the formation of an intermediate surface oxygen complex. Most of these are transition metal compounds.

8. The gasoline produced by Fischer-Tropsch process have high anti-knocking values.
a) True
b) False
Answer: b
Clarification: The gasoline obtained have low anti-knocking values. They may be increased by reforming or doping. The gasoline produced have octane number about 80.

9. What happens to the heavy oil fractions produced in Fischer-Tropsch process?
a) They are separated out
b) They are mixed with gasoline
c) They are subjected to cracking
d) No heavy oil fractions are produced
Answer: c
Clarification: The gasoline fraction produced in Fischer-Tropsch process is collected for further processing, while the heavy oil fractions are subjected to cracking to produce more gasoline. This avoids the wastage of the total product obtained.

10. In which process does the hydrogenation of coal take place?
a) Bergius process
b) Fischer-Tropsch process
c) Thermal cracking
d) Catalytic cracking
Answer: a
Clarification: In Fischer-Tropsch process, the coal is first converted to coke and then its hydrogenation takes place, while in the Bergius process, the coal is hydrogenised to produce synthetic gasoline. This process avoids the expenses of the conversion of coal to coke.

250+ TOP MCQs on Zeolites and Answers

Engineering Chemistry Multiple Choice Questions on “Zeolites”.

1. The chemical formula of zeolite is ___________
a) FeSO₄.7H₂O
b) Al₂(SO₄)₃.18 H₂O
c) Na₂O.Al₂O₃.xSiO₂.yH₂O
d) Na₂Al₂O
Answer: c
Clarification: The chemical formula of zeolite is Na₂O.Al₂O₃.xSiO₂.yH₂O. Zeolites are micro-porous, alumino-silicate minerals commonly used as commercial adsorbents and catalysts.

2. Which of the following is not naturally occurring zeolite?
a) Na⁺
b) Al⁺³
c) Si⁺⁴
d) Ca⁺²
Answer: d
Clarification: Ca⁺² is not naturally occurring zeolite. Na⁺, Al⁺³ and Si⁺⁴ are some of the naturally occurring zeolites.

3. Natural zeolites are ___________
a) Porous
b) Amorphous
c) Non-durable
d) Possess gel structure
Answer: b
Clarification: Natural zeolites are non-porous, amorphous and durable. Natural zeolites form where volcanic rocks and ash layers react with alkaline groundwater.

4. Synthetic zeolites possess a higher exchange capacity per unit weight compared to natural zeolites.
a) True
b) False
Answer: a
Clarification: Synthetic zeolites possess a higher exchange capacity per unit weight compared to natural zeolites. Synthetic zeolites are formed by a process of slow crystallization of a silica-alumina gel in the presence of alkalis and organic templates.

5. The exhausted zeolite is reclaimed by treating the bed with a ___________
a) Conc. NaCl
b) Conc. HCl
c) Conc. H₂SO₄
d) Dil. HCl
Answer: a
Clarification: The exhausted zeolite is reclaimed by treating the bed with conc. NaCl (brine) solution. Zeolites have the potential of providing precise and specific separation of gases including the removal of H₂O, CO₂ and SO₂ from low-grade natural gas streams.

6. Select the incorrect statement from the following option.
a) The capital cost for zeolite process is high
b) The residual hardness in zeolite process is 0-15 ppm
c) The raw water used should be turbid and acidic
d) Automation is possible in zeolite process
Answer: c
Clarification: The raw water used should be non-turbid and non-acidic. All the other options are correct. The capital cost for zeolite process is high and the residual hardness in the zeolite process is 0-15 ppm. Automation is also possible in zeolite process.

7. In zeolite process, the exchange of ___________ takes place.
a) Anions
b) Cations
c) Both cations and anions
d) No ions exchange
Answer: b
Clarification: In the zeolite process, the exchange of only cations takes place. The specific activation modality of most zeolitic catalysts used in petrochemical applications involves quantum-chemical Lewis acid site reactions.

8. The hardness of 1000 litres of a water sample was removed by passing it through a zeolite softener which required 30litres of NaCl solution containing 1.5 gm/L NaCl for regeneration. The hardness of the water sample will be ___________
a) 54.2 ppm
b) 12.9 ppm
c) 45 ppm
d) 38.46 ppm
Answer: d
Clarification: The hardness of the water sample will be 38.46 ppm.

9. Which of the following cannot be used in place of NaCl?
a) NaNO₃
b) KCl
c) HCl
d) KNO₃
Answer: c
Clarification: NaNO₃, KCl and KNO₃ can also be used instead of NaCl. But HCl cannot be used in place of NaCl.

10. Natrolite is an example of ___________
a) Synthetic zeolite
b) Natural zeolite
c) Calgon
d) Colloid
Answer: b
Clarification: Natrolite is an example of natural zeolite. Natural zeolites are non-porous, amorphous and durable. Natural zeolites form where volcanic rocks and ash layers react with alkaline groundwater.

250+ TOP MCQs on Oils and Fats – 1 and Answers

Engineering Chemistry Multiple Choice Questions on “Oils and Fats – I”.

1. Melting point of fat is _________ and melting point of oil is ________
a) Higher, higher
b) Lower, lower
c) Higher, lower
d) Lower, higher
Answer: c
Clarification: Melting point of fat is higher and melting point of oil is lower. Generally, healthy fats have a high amount of monounsaturated fats as well as polyunsaturated fats and a low amount of saturated fats.

2. Which of the following is an example of fats?
a) Glyceryl trioleate
b) Vegetable ghee
c) Coconut oil
d) Groundnut oil
Answer: b
Clarification: Vegateble ghee is an example of fats. Glyceryl trioleate, Coconut oil and groundnut oil are the examples of oils.

3. Select the incorrect statement from the following option.
a) Oils are saturated triglyceride
b) Oils have lower melting points
c) Oils are liquid at room temperature
d) Examples of oils are glyceryl trioleate, coconut oil, olive oil, etc
Answer: a
Clarification: Oils are partially unsaturated triglyceride which have lower melting point and are liquid at room temperature.

4. Which of the following is not a suitable solvent for oils and fats?
a) Benzene
b) CCl₄
c) CHCl₃
d) Water
Answer: d
Clarification: Oils and fats are soluble in benzene, CCl₄, CHCl₃ and other organic solvents.

5. Oils and fats are good conductors of heat and electricity.
a) True
b) False
Answer: b
Clarification: Oils and fats are poor conductors of heat and electricity. They do not allow heat or electricity to pass through them.

6. Saponification is hydrolysis ____________
a) By alkalis
b) In digestive tracts of human beings
c) By acids
d) By salts
Answer: a
Clarification: Saponification is the alkaline hydrolysis of the fatty acid esters. Example: The chemical reaction between any fat and sodium hydroxide is a saponification reaction.

7. Which of the following act as a catalyst in digestive tracts of human beings?
a) Lewis acid
b) Lewis base
c) Hydrogen peroxide
d) Lipases
Answer: d
Clarification: Lipases are the enzymes which act as a catalyst in the hydrolysis in the digestive tracts of human beings.

8. Hydrogenation is the conversion of unsaturated acid groups into the saturated one by a catalyst ____________
a) Ti
b) Pb
c) Ni
d) Sn
Answer: c
Clarification: Hydrogenation is the conversion of unsaturated acid groups into the saturated one by metal Nickel (Ni) catalyst.

9. Vegetable ghee is manufactured by ____________
a) Saponification
b) Hydrogenation
c) Oxidation polymerisation
d) Reduction polymerisation
Answer: b
Clarification: Vegetable ghee is manufactured by hydrogenation. But due to the trans fatty acids dilemma, partial hydrogenation is no longer viable.

10. Hydrogenolysis is a reaction which leads to the reduction products of ____________
a) Aldehyde
b) Ketone
c) Alcohol
d) Ester
Answer: c
Clarification: Hydrogenolysis is a reaction which leads to the formation of glycerol and reduction products of alcohol.