Chemistry XII Karachi Board MCQs

Five Year Papers

1. On passing steam over red-hot coal we get __________.

(Water gas, Ethane, Carbonmonoxide)

2. ‘d’ and ‘f’ block elements are called __________.

(Heavy metals, Rare elements, Transition elements)

3. The correct formula of pyrosulphuric acid is __________.

(H2SO4, H2S2O7, H3S2O5)

4. Aqua regia is mixture of one part of __________ by volume and three parts of __________.

(H2SO4, H3PO4, HNO3, HCl)

5. Heavy hydrogen is also called __________.

(Proteum, Deuterium, Hydronium)

6. When boric acid (H3BO3) is heated of 140°C, it forms __________.

(Boric Acid, Pyroboric acid, Metaboric acid)

7. Photographic film is made of sheets of __________.

(Cellulose Acetate, P.V.A, Nylon)

8. C4H8 is a saturated hydrocarbon because it is __________.

(Cyclic, Open chain, Polymer)

9. n-Octane is __________ at room temperature.

(Gas, Liquid, Semi-solid)

10. The compound formed between an element A of group IIIA and an element B of group VIA has the formula __________.

(AB, A2, B3, A2B3)

11. The oxide formed by AI is __________.

(Acidic, Amphoteric, Basic)

12. Bakelite is a polymer of __________ and form aldehyde.

(Ethane, Methanol, Phenol)

13. The plastics, which can be heated only once, are known as __________ plastics.

(Perspex, Thermoplastic, Thermosetting)

14. The deficiency of __________ in the human body is the cause of diabetes.

(Insulin, Alamin, Ptyalin)

15. If the level of cholesterol increases in the blood serum, it causes __________.

(Diabetes,Heart attact, High blood pressure)

16. The formula of baking soda is __________.

(NaHCO3, Na2CO3, Na2CO310H2O)

17. The formula of Plaster of Paris is __________.

(CaSO4.2H2O, 2CaSO4.H2O, (CaSO4)2H2O)

18. The atoms of the elements belonging to the same period of the Periodic table have __________.

(Same number of protons, same number of neutrons, same number of valence shells)

19. Sodium thiosulphate is used in photography because of its __________.

(Reducing power, Complex formation, Oxidizing behaviour)

20. The outer electronic configuration of copper is __________.

(4s14d10, 4s23d10, 4s13d10)

21. H2S solution in water is __________.

(Neutral, Acidic, Basic)

22. __________ is isomer of ethanol.

(CH3OH, CH3OCH3, C6H5OH)

23. Petroleum is a mixture of __________.

(Alkanes and alkenes, aromatic hydrocarbons, all of these)

24. Glucose is __________.

(Reducing sugar, oxidizing sugar, none of these)

25. Pentane shows __________.

(Two isomers, three isomers, four isomers)

Chapter 1

Periodic Classification of Elements

1. __________ elements have been discovered so far.

(100, 110, 120, 150)

2. so far 110 elements have been discovered. Out of these __________ elements are naturally occurring.

(100, 96, 92, 94)

3. __________ classified the then known elements into metals, non metals and their derivatives.

(Dobreiner, Al-Razi, Newlands, Mendeleeve)

4. In 1817, a German chemist, __________ made use of the idea of relationship between atomic weights and properties of elements for the classification of elements.

(Dobreiner, Al-Razi, Newlands, Mendeleeve)

5. __________ presented the law of triads.

(Dobreiner, Al-Razi, Newlands, Mendeleeve)

6. Dobreiner’s work led to the law of triads which states that __________.

(Atomic weight of any one lement was found to be approximately the mean of the other two elements of triad, Atomic weight of the middle element was found to be approximately the mean of the other two elements of a triad, Atomic number of any one element was found to be approximately the mean of the other two elements of a triad, Atomic number of the middle element was found to be approximately the mean of the other two elements of triad)

7. The law of octaves was given by __________.

(Dobreiner, Al- Razi, Newlands, None of these)

8. Law of octaves states that __________.

(The properties of every 6th element from the given one were similar to the first, the properties of every 9th element from the given one were similar to the first, the properties of every 8th element from the given one were similar to the first, the properties of every 7th element from the given one were similar to the second)

9. “Physical and chemical properties of elements are periodic functions of their atomic weight.” This is called __________.

(Dobereiner’s Law of Triads, Newlands’ Law of Octaves, Mendeleev’s Periodic Law, None of these)

10. Lother Meyer arranged the elements in order of their increasing atomic weights and found that __________.

(Physical propertis of the elements were the periodic function of their atomic weights, chemical properties of the elements were the periodic function of their atomic number, physical properties of the elements were the periodic function of their atomic number, chemical properties of the elements were periodic function of their atomic weights)

11. Mendeleev’s Periodic table was based on __________.

(Atomic number, Atomic mass, Atomic volume, Electronic Configuration)

12. Mandeleev formulated a rule for the classification of elements and concluded that __________.

(Physical and chemical properties of the elements are periodic functions of their atomic numbers, physical and chemical properties of the elements are periodic functions of their atomic weights, physical properties of the elements are periodic function of their atomic weights, Chemical properties of the elements are periodic functions of their atomic numbers)

13. Modern Classification of elements is based on __________.

(Doberiner’s law of Triads, Newlands’ law of Octaves, Mendeleev’s Periodic Table, None of these)

14. Excluding H and He, the smallest element in the periodic table is __________.

(Lithium, Fluorine, Cesium, Iodine)

15. “Physical and chemical properties of elements are the periodic functions of their atomic numbers.” This is called __________.

(Law of Triads, Law of Octaves, Periodic Law, None of these)

16. Moseley’s work led to the periodic law, which states that __________.

(the number of the electrons in the 1s energy level increases as the atomic number increases, The properties of the elements are a periodic function of their atomic masses, The x-rays spectra of the elements are more complex than the optical spectra, The properties of elements are the periodic function of their atomic number)

17. A pair of elements in the same family in the periodic table classification is __________.

(Chlorine and carbon, calcium and aluminium, nitrogen and neon, sodium and potassium)

18. In the period, the elements are arranged in strict sequence in order of __________.

(Increasing charges in the nucleus, increasing atomic weight, increasing number of electrons in valence shell, increasing valency)

19. Most of the known elements are metals of __________ of periodic table.

(d-block, p-block, III-group, Zero block)

20. __________ reflects combining capacity of an element.

(Valency, atomic number, ionization energy, ionization potential)

21. As we move from left to right in second period of the periodic table, the gram atomic volume of the elements __________.

(Increases at a constant rate, remains unchanged, decreases, will change indefinitely)

22. The volume in cubic centimeters occupied by one gram atom of the element is called __________.

(Atomic Volume, Atomic weight, Mass number, None of these)

23. In a __________, atomic volume increases with atomic number, from top to bottom, as new shells are added up with increase in atomic number.

(Group, Period, Sub-group, None of these)

24. __________ of the following is a transition element.

(Ni, Rb, Al, As)

25. On moving from left to right across a period in the periodic table, the size of atom generally __________.

(decreases, increases, remains constant, decreases up to IV A group and then increases)

26. The amount of energy required to remove an electron from an atom of an element in the gaseous state I called __________.

(Ionization Potential, Ionization energy, Electron volt, both a and b)

27. Each vertical row of the periodic table includes elements with chemical characteristics that are in general __________.

(identical, similar, different, sometimes identical and sometimes differents)

28. The ionization energy __________ in a group from top to bottom with the increase in atomic size.

(Increases, decreases, remains constant, none of these)

29. The lowest ionization energies are found in the __________.

(inert gases, alkali metals, Transition elements, Halogens)

30. Ionization energy is lowest for __________.

(Inert gases, alkali metals, halogens, alkaline earth metals)

31. In the periodic table, the highest ionization energies are for __________.

(Halogens, Noble gases, Alkali metals, Chalcogens)

32. The atomic weight of an element divided by its density is called __________.

(Atomic mass, Atomic volume, Atomic density, Atomic number)

33. Elements in the same family __________.

(have same atomic number, have the same molecular weight, have similar chemical properties, constitute a group of elements with the same electronic configuration)

34. In a given period, the alkali metals have __________.

(smallest atomic size, lowest ionization energy, lowest density, highest electron affinity)

35. Of the following given elements __________ atom has the highest ionization energy.

(Be, F, N, Ne)

36. The value of ionization energy __________ in a period from left to right due to the decrease in atomic size.

(increases, decreases, remains constant, None of these)

37. __________ is the most electronegative element.

(Fluorine, Iodine, Oxygen, Sodium)

38. The unit of ionization energy is __________.

(Joule, Calorie, electron volt, none of these)

39. Of the following elements, __________ element has the highest first ionization potential.

(Boron, carbon, nitrogen, oxygen)

40. The unit of ionization potential is __________.

(Joule, joule per mole, calorie per mole, none of these)

41. In a period, the ensity of normal elements first __________ and then __________ after reaching a maximum value somewhere in the middle.

(Increases, decreases, remains constant, none of these)

42. Most of the known elements are __________.

(Rrystalloids, Metals, Metalloids, Non metals)

43. Melting and boiling points gradually __________ in a periodic table from left to right up to the middle.

(increases, decreases, remains constnt, none of these)

44. The electropositive elements form __________.

(acidic oxides, basic oxides, neutral oxides, none of these)

45. __________ of the following elements has the lowest first ionization energy.

(Na, F, I, Cs)

46. The electronegative elements form __________.

(Acidic oxides, Basic oxides, Neutral oxides, none of these)

47. __________ is the most volatile compound.

(HI, HCl, HBr, HF)

48. The ionization energy of nitrogen is more than oxygen because of __________.

(more attraction of electrons by the nucleus, more peneration effect, the extra stability of half filled p-orbitals, the size of nitrogen atom is smaller)

49. The elements of group IIA are called __________.

(Metals, Non-metals, Alkaline earth metals, Transition elements)

50. __________ ion has the largest radius.

(Al+3, Cl-, F-, O-2)

51. __________ atom has the smallest size.

(C, F, Li, Rb)

52. __________ of the following has highest first ionization energy.

(Br, Cl, F, I)

53. The most electropositive among the following elements is __________.

(Fe, Na, Cs, Pb)

Chapter 2

Hydrogen

1. Large amounts of atomic hydrogen are present in the atmosphere of __________.

(Earth, Sun, Moon, none of these)

2. Hydrogen atom contains __________ electrons.

(1, 2, 3, 4)

3. During the electrolysis of water hydrogen is liberated at the __________.

(Anode, Cathode, Diode, none of these)

4. The atomic weight of hydrogen is __________.

(1.00, 1.008, 1.08, 1.800)

5. In nature hydrogen exists in __________.

(Gaseous state, Solid state, Liquid state, Plasma state)

6. __________ is the lightest gas.

(Nitrogen, Helium, Oxygen, Hydrogen)

7. Alkali metals do not exist in __________.

(Monoatomic, Diatomic, Triatomic, none of these)

8. Hydrogen generally combines with other elements to form __________.

(Ionic bond, Covalent bond, Polar bond, none of these)

9. Hydrogen may be readily prepared by the action of water on __________.

(Fe, HCl, Zn, Na)

10. In organic compounds, __________ element is found in close association with hydrogen.

(C, N, O, none of these)

11. Ionic hydrides are usually __________.

(liquids at room temperature, good reducing agents, good electrical conductors in solid state, Easily reduced)

12. The atoms of the same element, which have the same atomic number but different mass numbers, are called __________.

(Isotopes, Actanides, Isobars, none of these)

13. The difference in atomic weights or mass numbers of the atoms of the same element is due to __________.

(Different number of electrons in them, different number of protons in them, different number of neutrons in them, none of these)

14. A tritium nucleus has __________.

(one proton and two electrons, one proton and two neutrons, one neutrons and two protons, one proton and three neutrons)

15. Physical properties of elements depend upon the number of __________.

(Protons in the nucleus, neutrons in the nucleus, electrons in the valence shell, both protons and neutrons in the nucleus)

16. Chemical properties of elements depend upon the number of __________.

(electrons in the valence shell, protons in the nucleus, neutrons in the nucleus, protons and neutrons in the nucleus)

17. Chemical properties of elements depend upon their __________.

(Atomic number, Atomic weight, volume, none of these)

18. The hydronium ion is a/an __________.

(ion with formula H2O+, ion with the formula H3O+, free radical rather than an ion, ion formed by removal of H- form a water molecules)

19. Hydrogen is an important constituent of __________.

(Water, Petroleum, Natural gas, all of these)

20. When steam is passed over red hot coke at 1000°C, a mixture of carbon monoxide and hydrogen gas is produced. It is known as __________.

(Heavy water, Water gas, Phosgen gas, none of these)

21. The most suitable process for the separation of CO from water gas is __________.

(Bosch Proces, Lane’s Process, Electrolysis of water, None of these)

22. When steam is passed over iron at 500°C, magnetic oxide and hydrogen gas is produced. This is called __________.

(Bosch Process, Lane’s Process, Electrolysis, All of these)

23. The presence of an acid or base renders water __________.

(good conductor of electricity, poor conductor of electricity, very bad conductor of electricity, all of these)

24. The process of loss of oxygen from a substance or addition of hydrogen is called __________.

(Oxidation, Reduction, Hydrogenation, None of these)

25. Hydrogen is a very good __________.

(Reducing agent, Oxidizing agent, Reducing agent as well as oxidizing agent, none of these)

26. Lowering of oxidation state of a metal is termed s __________.

(Oxidation, Reduction, Hydrogenation, All of these)

27. The process of addition of hydrogen (H2) to a molecule is called __________.

(Oxidation, Reduction, Hydrogenation, all of these)

28. Formation of vegetable ghee from vegetable oil is an example of __________.

(Oxidation, Reduction, Hydrogenation, all of these)

29. Ethylene can be hydrogenated to __________ under pressure at about 300°C, when double bond is changed to single compounds.

(Methane, Ethane, Ethyne, None of these)

30. Hydrogen reacts with halogens to give __________.

(Hydrogen halides, hydrogen hydrides, hydrogen sulphides, All of these)

31. Hydrogen is used in the manufacture of __________.

(Fertilizers, CO2, O2, None of these)

32. Hydrogen at the time of its generation during chemical reaction is in the form of atomic state and is called __________.

(Ionic Hydrogen, Nascent hydrogen, atomic hydrogen, none of these)

33. Hydrogen molecule consists of two atoms linked together by a strong __________.

(Ionic bond, Covalent bond, Hydrogen bonding, None of these)

34. Nascent hydrogen is used in the reduction of __________.

(Ionic compounds, Organic compounds, Inorganic compounds, none of these)

35. The compounds formed between two elements are called __________.

(Hydrides compounds, Binary compounds, Tertiary compounds, None of these)

36. Hydrogen reacts with some elements to form binary compounds called __________.

(Halides, Hydrides, Oxides, all of these)

37. The hydrides formed by the transfer of electrons from electropositive metals to hydrogen are called __________.

(Ionic hydrides, covalent hydrides, Complex hydrides, Interstitial hydrides)

38. NaH is an example of __________.

(Ionic hydrides, covalent hydrides, Complex hydrides, Interstitial hydrides)

39. Ionic hydrides ionize to produce __________.

(H-ion, OH-ion, H+ion, all of these)

40. The hydrides, which are good conductors of electricity in the fused state, are called __________.

(Ionic hydrides, covalent hydrides, Complex hydrides, Interstitial hydrides)

41. Covalent hydrides generally exist in __________.

(Solid state, Liquid state, Gaseous state, all of these)

42. Covalent hydrides are prepared by the direct action of __________.

(metals with hydrogen, non-metals with hydrogen, transition elements with hydroge, none of these)

43. Hydrides, which are non-stoichimetric in nature, are called __________.

(Ionic hydrides, covalent hydrides, Complex hydrides, Interstitial hydrides

44. The law of chemical combination is not obeyed by __________.

(Ionic hydrides, covalent hydrides, Complex hydrides, Interstitial hydrides

45. Electron deficient hydrides are called __________.

(Ionic hydrides, covalent hydrides, Complex hydrides, Interstitial hydrides

46. Hydrogen occurs in __________.

(One isotopic forms, two isotopic forms, three isotopic forms, four isotopic forms)

47. Atomic hydrogen is __________.

(More reactive than molecular hydrogen, less reactive than molecular hydrogen, very less reactive than molecular hydrogen, all of these)

48. The process of addition of hydrogen to a molecule is called __________.

(Halogenation, Hydrogention, Sulphonation, Reduction)

Chapter 3

S - Block Elements

1. Out of all the elements of group IA, the highest atomic number is for __________.

(Na, Cs, Rb, K)

2. Out of all the elements of group IA, the highest melting and boiling point is for __________.

(Li, Na, Rb, K)

3. __________ of the following elements has highest ionization potential.

(K, Rb, Cs, Li)

4. Out of all the elements of group IA, the highest heat of hydration is for __________.

(Li, Na, K, Rb)

5. __________ of the elements has highest melting and boiling point.

(Be, Ca, Mg, Ba)

6. __________ of the following elements have highest oxidation potential.

(Na, Li, Rb, K)

7. Out of all the elements of group IIA, the highest density at 20°C is for __________.

8. Out of all the following elements of group IIA, the highest atomic number is for __________.

(Be, Ba, ca, Sr)

9. The alkali metals possesses __________ electrons in their outermost orbitals.

(1, 2, 3, 4)

10. Out of all the elements of group IIA, the highest heat of hydration is for __________.

(Be, Ba, Ca, Mg)

11. __________ of the elements has highest ionic radius.

(Be, Ba, Sr, Ca)

12. Out of all the elements of group IA, the highest heat of hydration is for __________.

(Li, Na, K, Cs)

13. Of all the group II elements, the highest oxidation potential is for __________.

(Li, Be, Ba, Ra)

14. Sodium is not observed in +2 Oxidation State because of its __________.

(high first ionization potential, high second oxidation potential, high ionic radius, high electronegativity)

15. The metallic lustre of sodium is explained by the presence of __________.

(Na+ ions, conduction electrons, free protons, a body centred cubic lattice)

16. __________ of the following substances is manufactured by electrolysis of NaCl solution.

(NaOH, Na2ClO3, NaClO3, Na)

17. When NaCl is dissolved in water, the sodium ions become __________.

(Oxidized, Reduced, Hydrolyzed, Hydrated)

18. NaCl imparts a golden yellow colour to the Bunsen flame. This can be interpreted due to __________.

(Low ionization potential of sodium, Photosensitivity of sodium, Sublimation of metallic sodium to give yellow colour, Emission of excess energy absorbed as a radiation in the visible region)

19. The alkaline earth metals possess __________ electron or electrons in their outermost orbitals.

20. Alkali metals form __________.

(Ionic bond, covalent bond, non-polar, Vander waal’s forces)

21. Sodium salts constitute __________% of earth’s crust.

(2.40, 2.35, 2.30, 2.25)

22. Potassium salts constitute __________% of the earth’s crust.

(2.40, 2.35, 2.30, 2.25)

23. Alkaline earth metals occur in nature in __________.

(free state, combined state, both free and combined state, none of these)

24. In general alkali metals act as __________.

(Reducing agents, Oxidizing agents, Both reducing and oxidizing agents, none of these)

25. All alkaline metals except __________ are white in colour.

(Be, Mg, Ca, None of these)

26. In the alkali metal series __________ of the following is most reactive.

(Li, Na, K, Rb)

27. In the alkali metal series, Cesium is the most reactive metal because __________.

(its incomplete shell is nearest to nucleus, the valence electron has a larger orbit than the orbit of the valence electron of any of the others, it exerts considerable Beautiful force on the valence electrons, it is a heavier metal)

28. Alkali metals are __________.

(lighter than water, heavier than water, enlarged than water , all of these)

29. __________ does not belong to alkali metals.

(Li, Na, Rb, K)

30. A graphite anode is used in Down’s cell for the production of sodium because __________.

(It does not react with sodium, it does not react with chorine, it is easy to fashion in circular form, it floats on the fused sodium chloride)

31. __________ is a reducing agent and a constituent of a gun powder.

(KNO3, C, CaCO3, Na)

32. Alkaline earth metals form __________ carbides on heating with carbon.

(Stable, Unstable, soluble, none of these)

33. Except lithium, all alkali metal hydroxides are strongly __________.

(acidic in nature, basic in nature, neutral in nature, none of these)

34. Alkaline earth metal carbonates, sulphates and phosphates are __________.

(soluble in water, insoluble in water, sometimes soluble and sometimes insoluble in water, none of these)

35. Alkali metal carbonates, sulphates and phosphates are __________ in water with the exception of Li2CO3 and Li3PO4.

(soluble, insoluble, Both soluble and insoluble, none of these)

36. LiCl is soluble in organic solvents while NaCl is not. This is because __________.

(Lattice energy of NaCl is less than LiCl, Li+ has higher value of hydration energy than that of Na+, LiCl is more covalent in nature than NaCl, Li+ has lower value of hydration energy than Na+)

37. When burnt in air, Lithium forms __________.

(Normal oxide, Peroxide, Super oxide, none of these)

38. The chlorides of alkali metals and alkaline earth metals are generally __________.

(Ionic, Covalent, non polar, vander waal’s forces)

39. Sodium is a __________.

(good conductor of electricity, poor conductor of electricity, bad conductor of electricity, none of these)

40. Sodium reacts vigorously with oxygen on heating to form __________.

(Sodium oxide, Sodium peroxide, sodium superoxide, all of these)

41. Sodium is very reactive with water. Hence due to its high reactivity with water, it is stored in __________.

(Alcohol, Kerosine oil, Benzene, all of these)

42. Sodium reacts vigorously with water, liberating __________.

(Oxygen, hydrogen, Carbonoxide, Neon)

43. Sodium is a powerful __________.

(Reducing agent, oxidizing agent, bleaching agent, all of these)

44. __________ is used s a reducing agent in the preparation of such metals as titanium and zicronium from their chlorides or oxides.

(Mg, Na, Cu, Ag)

45. __________ is used in the synthesis of rubber.

(Mg, Cu, Na, Fe)

46. __________ reducing action is used in the manufacture of certain dyes and drugs.

(Na, Mg, Cu, Ca)

47. __________ is used often in highway lamps as filaments to produce yellow light.

(Na, Tungston, Mg, Fe)

48. Purification of sodium chloride is accomplished by __________.

(Sublimation, Crystallization, Hydrogenation, Melting)

49. Ice and sodium chloride form a freezing mixture, which is used in __________.

(Refregeration, Preserving fish, Sublimation, None of these)

50. Sodium bicarbonate is commonly called __________.

(Soda Ash, Baking soda, Caustic soda, none of these)

51. Soap is often composed of __________.

(sodium carbonate, calcium carbonate, rubidium carbonate, sodium stearate)

52. Solvay’s process is also called __________.

(Haber’s Proess, Ammonia Soda Process, Washing Soda Process, Down’s Process)

53. __________ is a stronger base.

(NaOH, KOH, LiOH, HCl)

54. Na2CO3 is marketed as __________.

(Soda ash, baking soda, caustic soda, none of these)

55. When a solution of sodium carbonate is evaporated, Na2CO3.10H2O crystallizes out t room temperature and marketed as __________.

(Soda ash, baking soda, caustic soda, washing soda)

56. By the action of aqueous NaOH on aluminium, __________ is produced.

(H2, CO2, H2O, O2)

57. __________ is used for weighing cotton cloth.

(Gypsum, Soda ash, Magnesium Sulphate, Washing soda)

Chapter 4

P - Block Elements

1. __________ of the following is non-metal.

(Boron, Aluminium, Indium, Thallium)

2. __________ of the following was isolated by Davy in 1807 by electrolysis of moist boric acid.

(Boron, Indium, Aluminium, Gallium)

3. __________ of the following is chemically inert.

(Boron, Indium, Aluminium, Gallium)

4. __________ is not the member of group IIIA.

(B, In, C, Al)

5. The oxides of Boron are __________ in nature.

(Acidic, Basic, Neutral, None of these)

6. __________ forms the most acidic oxide.

(B, Al, Ga, In)

7. Boron bursts into flame at __________.

(600°C, 700°C, 800°C, None of these)

8. B3+ cannot exist in aqueous solution because of its __________.

(Strong reducing ability, large size and small charge, small size and large charge, strong oxidizing ability)

9. Orthoboric acid on heating to about 100°C looses a water molecule to form __________.

(Metaboric acid, Pyroboric Acid, Metaboric and Pyroboric acid, none of these)

10. The reduction of metal oxides is sometimes accomplished by using aluminium in the __________.

(Goldshmidt’s reaction, Silberchmdit’s reaction, Baeyer’s reaction, Zilch’s reaction)

11. Baeyer’s Process is used for the purification of __________.

(Alum stone, Cryolite, Bauxite, none of these)

12. Hall’s Process is based on electrolysis of __________.

(Alumina, Gypsum, Borax, none of these)

13. __________ is a better conductor of heat.

(Fe, Sn, Al, none of these)

14. Al2O3 formation involves evolution of a larger quantity of heat, which makes its use in __________.

(Deoxidizer, confectionary, indoor photography, thermite welding)

15. A mixture of iron oxide and aluminium is called __________.

(Thermite, Bauxite, Alum, none of these)

16. Aluminium is used in __________.

(X-ray welding, Spot welding, Thermite welding, none of these)

17. __________ metal is used in photo-flash bulbs.

(Ca, Na, W, Al)

18. The alloy of aluminium, which contains small quantities of manganese, copper and magnesium, is called __________.

(duralumin, Magnalium, Alnico, none of these)

19. The alloy of aluminium with small percentage of magnesium is called __________.

(Duralumin, Magnalium, Alnico, none of these)

20. The aluminium which contains 20% nickel, 20% aluminium, 50% iron and 10% cobalt is called __________.

(Duralumin, Magnalium, Alnico, none of these)

21. A magnet made of __________ will lift approximately 4000 times of its own weight of iron.

(Duralumin, Magnalium, Alnico, none of these)

22. An alloy of aluminium made by alloying 5-15% aluminium and has a golden lustre is called __________.

(duralumin, Magnalium, Aluminium Bronze, none of these)

23. All the alums crystallize to yield __________.

(Octahedral crystal, Tetrahedral crystal, Trigonal crystal, Linear crystal)

24. The process of permanent dyeing is called __________.

(Mordanting, Painting, Calination, none of these)

25. The solvent used in the extraction of aluminium from its ore is __________.

(Cryolite, Bauxite, Molten sodium chloride, Water)

26. The group IV-A of the periodic table consists of __________ elements.

(three, four, five, six)

27. In group IV-A the metallic character down the group __________.

(Increases, Decreases, remains constant, none of these)

28. __________ does not contain aluminium.

(Felsper, Cryolite, Kaoline, Anhydrite)

29. Carbon differs from other members of its group due to the absence of __________ electrons.

(s, p, d, none of these)

30. Elements, which exist in two or more physical or molecular forms, are called __________.

(Isotopes, Allotropes, Isobars, none of these)

31. Out of the following elements of group IV A of the periodic table the higher density is for the element __________.

(C, Si, Ge, Pb)

32. Diamond is a __________ conductor of electricity and heat.

(Poor, Good, None, none of these)

33. Out of all the elements of group IV the higher density is for __________.

(C, Si, Ge, Pb)

34. __________ is used as a lubricant for machinery and also as a moderator in nuclear reactors.

(Diamond, Graphite, Epsom, Gypsum)

35. Highest melting and boiling point is for __________.

(C, Ge, Si, Pb)

36. PbO behaves as a/an __________.

(Amphoteric oxide, basic oxide, super oxide, sub oxide)

37. White lead is prepared by __________.

(Dutch process, Solvay’s Process, Down’s Process, none of these)

38. __________ member of the group V-A show several oxidation states such as –1, +2, +3, +4 and +5.

(P, As, Sb, N)

39. __________ member of the group V-A forms multiple bonds.

(P, Bi, As, N)

40. __________ member of group V-A does not show allotropy.

(P, Sb, N, As)

41. In __________ solution glass is soluble.

(HNO3, HCl, HF, H2CO3)

42. On industrial scale Nitric acid is prepared by __________.

(Dutch Process, Birkland-Eyde’s Process, Solvay’s Process, Down’s Process)

43. In Ostwald’s Process the substance used to oxide ammonia is __________.

(Zn, Pt, CO, none of these)

44. Copper reacts with dilute nitric acid to form __________.

(Nitric oxide, nitrogen peroxide, nitrous oxide, none of these)

45. Nitric acid is a strong __________.

(reducing agent, bleaching agent, oxidizing agent, none of these)

46. A mixture consisting of one volume of concentrated HNO3 and three volumes of concentrated HCl is called __________.

(Aqua regia, Meta stannic acid, Alum, Sandhur)

47. Lead tertraethyle is used as __________.

(Fire extinguisher, Pain Killer, Mosquito repellent, Petroleum Additive)

48. Nitric acid is used in the manufacture of __________.

(Cellulose, Varnishes, T.N.T, all of these)

49. __________ allotropic form of coal is hard.

(Peat, Lignite, Anthracite, Graphite)

50. __________ molecule is paramagnetic nature.

(O, S, Se, Po)

51. __________ element edhibits the largest number of allotropic forms amongst the elements.

52. __________ element is the most abundant element in earth’s crust.

(Ca, Si, C, O)

53. There are __________ rings in unit cell of Rhombic sulphur.

(12, 16, 20, 24)

54. Graphite is used in nuclear reactor as __________.

(A Lurbicant, A fuel, for lining the inside of reactor as an insulator, for reducing the velocity of neutrons)

55. In its unit cell, monoclinic sulphur possesses how many S8 rings.

(12, 6, 3, 0)

56. H2S is a good __________.

(reducing agent, oxidizing agent, bleaching agent, none of these)

57. In the aqueous solution H2S ionizes to produce __________ ions and behaves as a weak acid.

(H+, H-, OH-, none of these)

58. H2S reduces halogens to __________.

(hidrides, halides, halogens, none of these)

59. By __________ process the H2SO4 produced is pure and can be produced of any desired strength.

(Lead Chamber Process, Contact Process, Down’s Cell, none of these)

60. __________ gas is responsible for rising of bread.

(CO, CO2, NH3, O2)

61. At what temperature H2SO4 completely dissociates into sulphur trioxide and water.

(416°C, 516°C, 616°C, 716°C)

62. Concentrated sulphuric acid acts as a __________.

(Reducing agent, Oxidizing agent, Dehydrating agent, None of these)

63. __________ charcoal is used to decolourise brown sugar solution.

(Wood, Coconut, Animal, Sugar)

64. In the sale of diamonds the unit of weight is carat. One cart is equal to __________.

(100mg, 200mg, 300mg, 400mg)

65. Hot concentrated sulphuric acid acts as an __________ usually itself reduced to sulphur dioxide.

(Dehyrating, Oxidizing, Reducing, none of these)

66. __________ are the two elements that find wide application in transistor industry.

(Silicon and Germinium, Carbon and Platinium, Iridium and Germanium, Tungsten and Platinium)

67. In the manufactur of certain explosives such as nitroglycerine, trinitrotoluene and gun-cotton etc. Sulphuric acid is used as a __________.

(Oxidizing agent, Reducing agent, Dehydrating agent, none of these)

68. __________ prepared chlorine in 1774, by the action of hydrochloric acid on manganese dioxide.

(Cavendish, C.W. Scheele, Sir Humphry Davy, Lane)

69. __________ suggested the name chlorine for the gas produced by the action of hydrochloric acid on manganese dioxide.

(Sir Humphry Davy, C.W. Scheele, Cavendish, none of these)

70. Chlorine is obtained by reacting concentrated HCl with __________ agent, such as MnO2, KClO3, KMnO4.

(Reducing, oxidizing, dehydrating, none of these)

71. Electrolysis of Brine produces __________.

(Chlorine, Hydrogen, H2S, Nitrogen)

72. The process based on the oxidation of hydrochloric acid with oxygen is __________.

(Nelson’s Cell, Contact Process, Down’s Process, Deacon’s Process)

73. __________ process is used for the production of chlorine gas.

(Deacon’s, Contact, Solvay’s, Electrolysis of water)

74. Chlorine gas is __________ in colour.

(Yellow, Greenish Yellow, Violet, Blue)

75. __________ produces inflammation of the nose and throat when breathed in considerable quantities.

(Nitrogen, Carbon dioxide, Chlorine, Hydrogen Sulphide)

76. To kill bacterial, molst of the drinking water is treated with __________.

(Nitrogen, Carbon dioxide, Chlorine, Hydrogen Sulphide)

77. Chlorine is used in the preparation of poisonous gases of warfare, such as __________.

(COCl2, H2S, HCl, none of these)

78. In phosphorus oxide the number of oxygen atoms bonded to each phosphorus atom is __________.

(1, 2, 3, 4)

79. Of the following elements the only one which does not exhibit allotropy is __________.

(P, As, Sb, Bi)

80. Phosgene is the common name of __________.

(Carbon dioxide and Phosphine, Phosphoryle chloride, Carbonyle Chloride, Carbon Tetrachloride)

81. Out of all the elements of group VI A, the highest melting and boiling point is for __________.

(Te, Se, S, Pb)

82. In group VIA highest electronegativity is for __________.

(S, O, Pb, Se)

83. Large deposits of sulphur in nature are found as __________.

(Sulphuric acid, hydrochloric acid, free sulphur, none of these)

84. On the basis of available data of the structure of monoclinic sulphur, it probably consists of __________ chains.

(S6, S2, S4, S8)

85. Rhombic sulphur consists of __________.

(S8 chains, S2 chains, S4 rings, S8 rings)

86. Pure sulphuric acid is a solid compound which __________.

(Is always colloidal, slowly decomposes to form SO2, Seves as a useful source for H2S, has never been observed)

87. The form of sulphur, which is stable at room temperature and normal atmospheric pressure, is __________.

(orthorhombic, hexagonal, mono clinic, amorphous)

88. When H2S gas is dissolved in aqua regia, the function of HCl in the mixture is to __________.

(oxidize the sulphur, oxidize the mercury, complex the sulphur, complex the mercury)

89. When liquid sulphur at one atmosphere pressure is very slowly cooled, unless super cooling occurs, the first solid to appear is __________.

(monoclinic sulphur, Rhombic sulphur, Hexagonal sulphur, metallic sulphur)

90. The synthesis of ethers from alcohol depends on the fact that sulphuric acid is a good __________.

(oxidizing agent, reducing agent, complexing agent, dehydrating agent)

91. __________ of the following has the highest catenation capability.

(Oxygen, Sulphur, Selenium, Tellurium)

92. the halogen with the highest ionization potential is __________.

(F, Cl, I, At)

93. The halide ion with the highest hydration energy is __________.

(F-, Cl-, I-, At-)

94. Hydrofluoride acid is __________.

(a powerful oxidizing agent, a weak acid, a strong acid, a good reducing agent)

95. __________ of the following is most powerful oxidizing agent.

(F2, Cl2, Br2, I2)

96. __________ of the following exhibits the largest electrical conductivity in the liquid state.

(F2, Cl2, Br2, I2)

97. __________ of the following exhibits the highest bond energy.

(F2, Cl2, Br2, I2)

98. __________ does not form its oxy acids.

(F2, Cl2, Br2, I2)

99. The colour of I2 solution can be discharged by shaking a aqueous solution of __________.

(Sulphur dioxide, sodium thiosulphate, sodium sulphite, sodium sulphate)

100. Bleaching powder is obtained by the interaction of Cl2 and __________.

(a dilute solution of Ca(OH)2, conc. Solution of Ca(OH)2, dry CaO, dry slaked lime)

Chapter 5

Transition Elements

1. Transition elements are those in which __________ orbitals are in the process of completion.

(d, f, s, d or f)

2. Transition elements are located between __________ elements in the periodic table.

(s and p block, s and f block, d and p block, none of these)

3. Out of total 110 elements known, there are more than __________ transition elements.

(40, 50, 60, 70)

4. Elements in which d-orbitals are in the process of completion are called __________ elements.

(outer transtion, inner transition, non-transition, none of these)

5. __________ of the following is transition element.

(Sr, Sn, Cr, B)

6. __________ of the following elements is not included in the list of transition elements.

(Ca, Cu, Cr, CO)

7. Due to the addition of electrons in inner f-robitals atomic and ionic radii or f-block elements have a regular trend. This is called __________.

(Contraction, Lanthanide contraction, actanide, contraction, none of these)

8. The transition elements usually have very __________ melting and boiling points.

(low, high, intermediate, none of these)

9. Transition elements show a tendency of __________.

(high reactivity, less reactivity, very high reactivity, none of these)

10. Finely divided iron is used in __________.

(Haber Process, Catalytic Hydrogenation, Oxidation of ammonia to nitric oxide, Contact Process)

11. __________ reagent can be used to identify Cu2+ ion.

(Nitric acid, Sulphuric acid, Sodium hydroxide, Potassium chromate)

12. Vanadium pentaoxide is used in __________.

(Haber Process, Oxidation of sulphur dioxide to sulphur trioxide, oxidation of ammonia to nitric oxide, Contact Process)

13. __________ is the important ore of copper.

(Malachite, Bauxite, Blue Vitriol, Alumina)

14. Copper is used in __________.

(Haber Process, Oxidation of ethyl alcohol to acetaldehyde, oxidation of ammonia to nitric oxide, Contact Process)

15. Bessemer converters are used to get __________.

(Aluminium, Copper, Steel, Sodium)

16. Titanium is used as catalyst in __________.

(Haber Process, Catalytic Hydrogenation, Oxidation of ammonia to nitric oxide, Polymerization of ethyle into polyethylene)

17. Platinium or Palladium is used as catalyst in __________.

(Haber Process, Catalytic Hydrogenation, Oxidation of ammonia to nitric oxide, Contact Process)

18. __________ of the following does not belong to d-block elements.

(Chromium, Cobalt, Silicon, Copper)

19. Compounds attracted into a magnetic field are called __________.

(Magnets, Paramagnets, Dimagnets, none of these)

20. Transition metal compounds, which show paramagnetism, have __________.

(unpaired electrons, paird electrons, unpaired protons, paired protons)

21. A substance, which have even number of electrons and have paired spin is called __________.

(Ferromagnetic, Paramagnetic, Dimagnetic, none of these)

22. Magnetic movement is measured with help of __________.

(Guoy’s balance, Spring balance, Physical balance, Cavendish Appratus)

23. __________ property provides information about the presence of unpaired electrons in an atom or ion.

(Dipole moment, Magnetic moment, torque, none of these)

24. By measuring the magnetic moment values we can measure __________.

(Nature of the transition metal compound, oxidation state of the transition metal, both nature and oxidation state of transition metal compound, none of these)

25. Transition elements show variable valencies because of the involvement of the d-electrons in addition to __________.

(p-electrons, f-electrons, d-electrons, e-electrons)

26. The empty spaces between atoms of transition metals in their crystal lattices are called __________.

(Vacant spaces, valence spaces, interstices, none of these)

27. The formation of non-stoichiometric compounds is due to the defects in solid structure and __________.

(Variabel valency of transition elemennts, even number of electrons, even number of protons, unpaired electrons)

28. Interstitial compounds have __________ formula.

(definite, half, indefinite, no)

29. Strong paramegnetism is called __________.

(dimagnetism, ferromagnetism, both dimagnetism and ferromagnetism, none of these)

30. When a number of molecules or negatively charged ions combine with a central d-block atom or ion to form complex ion or molecule, __________ is formed.

(a co-ordinate compound, interstitial compound, di-atomic compound, none of these)

31. In coordinate bonding the molecules or ions, which bond onto the central metal ion or atom, are called __________.

(actanides, Lanthanides, Ligands, none of these)

32. Ligands are __________.

(electron pair donors, electron pair acceptros, neutral, none of these)

33. [Ni(CN)4]2- is an example of __________.

(Squre planar, tetrahedral complexes, octahedral complexes, none of these)

34. [Cu(NH3)4]2+ is an example of __________.

(Squre planar, tetrahedral complexes, octahedral complexes, none of these)

35. MnO4- is an example of __________.

(Squre planar, tetrahedral complexes, octahedral complexes, none of these)

36. CrO42- is an example of __________.

(Squre planar, tetrahedral complexes, octahedral complexes, none of these)

37. [Cu(CN)4]3- is an example of __________.

(Squre planar, tetrahedral complexes, octahedral complexes, none of these)

38. [Zn(NH3)4]3- is an example of __________.

(Squre planar, tetrahedral complexes, octahedral complexes, none of these)

39. [Fe(CN)6]3- is an example of __________.

(Squre planar, tetrahedral complexes, octahedral complexes, none of these)

40. [Fe(CN)6]4- is an example of __________.

(Squre planar, tetrahedral complexes, octahedral complexes, none of these)

41. [Ni(NH3)6]2+ is an example of __________.

(Squre planar, tetrahedral complexes, octahedral complexes, none of these)

42. [Co(NH3)6]3+ is an example of __________.

(Squre planar, tetrahedral complexes, octahedral complexes, none of these)

43. In the system of naming complex coordinate compounds cations are named __________ anions.

(after, beforem, inbetween, none of these)

44. The names of __________ are usually unchanged.

(anionic ligands, cationic ligands, neutral ligands, none of these)

45. NH3 is an example of __________ ligand.

(anionic, cationic, neutral, none of these)

46. H2O is an example of __________ ligand.

(anionic, cationic, neutral, none of these)

47. The suffix “ate” at the end of the name of the coordinate complex ion represents a/an __________.

(cation, anion, cathode, anode)

48. A mixture of iron sulphide and copper sulphide is called __________.

(gangue, matte, matter, residue)

49. Sulphide ore is concentrated by __________.

(Froth floatation Process, Dutch Process, Bessemerization, none of these)

50. __________ does not copper.

(Carborundum, Azurite, Blue Vitriol, Malachite)

51. Utensils used to carry out fermentation are made of __________.

(Cu, Fe, Al, Ca)

52. An alloy of copper, which contains 80% copper and 20% zinc, is called __________.

(Brass, Bronze, Bell metal, none of these)

53. Copper sulphate reacts with solution of potassium iodide giving __________.

(sulphur dioxide, iodine, copper oxide, potassium oxide)

54. An alloy of copper, which contains 90% Cu and 10% Sn is called __________.

(Bronze, Brass, Bell Metal, all of these)

55. An alloy of copper, which contains 80% Cu and 20% Sn is called __________.

(Bronze, Brass, Bell metal, all of these)

56. The substance attracted by magnetic field is known as __________.

(diamagnetic, paramagnetic, antimagnetic, all of these)

57. Copper sulphate is commonly called __________.

(Nila Thotha, Lunar Caustic, Surkh Kahi, none of these)

58. Silver nitrate is commonly called __________.

(Nila Thotha, Lunar Caustic, Surkh Kahi, none of these)

59. Stainless steel is __________.

(a mixture, a compound, an element, all of these)

60. Potassium dichromate is commonly called __________.

(Nila Thotha, Lunar Caustic, Surkh Kahi, none of these)

61. Manganese differs from most other transition elements because it reacts with __________.

(oxygen, water, sulphur, iodine)

62. __________ of the following elements can be included in the category of transition elements.

(Cu, Al, Ar, At)

63. Potassium ferrocyanide is a __________.

(normal salt, mixed salt, double salt, complex salt)

64. __________ of the following combination is included in the Iron triad of elements.

(Pd and Pt, Mn and Hg, Co and Ni, V and Ti)

65. __________ is a blue crystalline solid which is freely soluble in water.

(Nila Thotha, Lunar Caustic, Surkh Kahi, none of these)

66. __________ is an orange crystalline solid which is freely soluble in water.

(Nila Thotha, Lunar Caustic, Surkh Kahi, none of these)

67. __________ is a yellow crystalline solid which is freely soluble in water.

(Nila Thotha, K2CrO4, Surkh Kahi, none of these)

68. __________ is a colourless crystalline solid.

(Nila Thotha, Lunar Caustic, Surkh Kahi, none of these)

69. __________ is used as fungicide and germicide.

(Nila Thotha, Lunar Caustic, Surkh Kahi, none of these)

70. Ferric oxide is __________.

(a basic anhydride, an acid anhydride, an amphoteric anhydride, green in colour)

71. Potassium dichromate is a strong __________.

(reducing agent, oxidizing agent, dehydrating agent, all of these)

72. The densest element is __________.

(Pb, Hg, Pt, Os)

73. The most strongly ferromagnetic element is __________.

(Fe, Co, Ni, Os)

74. Alloying of metals serves to inhibit __________.

(Corrosion, Froth Floatation, Erossion, None of these)

75. Mechanical strains can be removed by __________.

(heat treatment, polishing the metal surface, both heat treatment and polishing the metals surface, none of these)

76. __________ has the lowest density.

(Cu, Ni, Sc, Zn)

77. Galvanizing is done by dipping clean iron sheet in a zinc chloride bath and __________.

(heating, rusting, froth floatation, alloying)

78. There are two well known theories to explain the phenomenon of corrosion namely __________.

(Acid theory, Electromechanical theory, electrochemical theory, acid and electromechanical theory)

79. __________ one of the following metals exists in liquid form.

(Sc, Y, La, Hg)

80. The process of depositing a thin layer of tin on base metals to protect them from corrosion is called __________.

(Exposure, tin plating, Fixing, none of these)

81. The most strongly ferromagnetic element is __________.

(Fe, Ni, S, C)

82. The property of a substance which permits it being drawn into wire is called __________.

(softness, Ductility, Brittleness, Hardness)

83. One of the constituent of German silver is __________.

(Ag, Cu, Mg, Al)

84. When potassium permanganate is added to a saturated aqueous solution of potassium hydroxide, __________ gas is evolved.

(Hydrogen, Oxygen, Carbon dioxide, none of these)

85. __________ reagent can be used to identify nickle ion.

(Resorcinol, Dimethyl glyoxime, Dimethyl Benzidine, Potassium Ferrocyanide)

86. __________ of the following is the transition element.

(Sr, Sn, Cr, Fe)

87. Bessemer converters are used to get __________.

(Aluminium, copper, steel, none of these)

88. __________ is not the ore of copper.

(Blue vitriol, Cuprite, Chalcocite, Steel)

89. __________ of the following elements is not included in the list of transition elements.

(Ca, Cu, Cr, Co)

90. __________ one of the following does not belong to d-block elements.

(Chromium, Silicon, Cobalt, Nickel)

Chapter 6

Organic Chemistry

1. The branch of chemistry which deals with the study of compounds containing carbon as a essential element is called __________.

(Organic chemistry, In organic chemistry, Physical chemistry, all of these)

2. The first organic compound synthesized in the laboratory is __________.

(Methane, Urea, Acetic Acid, Glucose)

3. __________ of the following is not an organic compound.

(CH4, CO2, CH2-CH2, CH3OH)

4. __________ of the following is not an organic compound.

(Penicillin, Urea, Oxalic acid, Plaster of Paris)

5. __________ is the important sources of naturally occurring compounds of carbon.

(Animals, Plants, Rock salts, Sea water)

6. __________ is not a component of coal.

(H, O2, N, Si)

7. Hard black form of coal containing 92 – 98% carbon is called __________.

(Anthracite, Sub-bituminous coal, Bituminous coal, Lignite)

8. The most abundant form of coal and is used as energy souce and carbonization for coke, coal tar and coke-oven is called __________.

(Anthracite, sub-bituminous coal, Bituminous coal, Lignite)

9. Form of coal used at power generating stations is called __________.

(Antracite, Sub-bituminous coal, Bituminous coal, Lignite)

10. A soft and brown form of coal which contains 50 to 60% carbon is called __________.

(Anthracite, Sub-bituminous coal, Bituminous coal, Lignite)

11. In Pakistan deposits of lignite are found at __________.

(Dandot, Saindak, Khewra, none of these)

12. __________ is a pure carbon.

(Coke, Coal gas, Coal tar, none of these)

13. Its major constituents are hydrogen (50%), methane (35%) and carbon monoxide (8%).

(Coke, coal gas, coal tar, none of these)

14. Number of organic compounds present in coal tar is __________.

(115, 215, 315, 415)

15. Residue left after fractional distillation of coal tar is called __________.

(Pitch, Dutch, Gangue, Matte)

16. Petroleum in the unrefined form is called __________.

(Coke, Coal gas, Crude oil, Rock oil, both crude oil and rock oil)

17. Natural gas mainly consists of __________.

(Methane, Ethane, propane, Butanes)

18. In Pakistan there are vast reserves of natural gas at __________ in Baluchistan.

(Bandot, Khewra, Saindak, Sui)

19. __________ is a mixture of methane, ethane, propane and butane, used as a fuel and for making other organic chemicals.

(Refinary gas, Gasoline, Kerosene oil, gas oil)

20. __________ is a mixture of hydrocarbons containing 5-8 carbon atoms and boiling in the range of 40-180°C.

(Refinary gas, Gasoline, Kerosene oil, gas oil)

21. __________ is a mixture of hydrocarbons having 11-12 carbon atoms and boiling point in the range of 250°C.

(Refinary gas, Gasoline, Kerosene oil, gas oil)

22. A mixture of hydrocarbons having 13-25 carbon atoms is called __________.

(Refinary gas, Gasoline, Kerosene oil, gas oil)

23. On strong heating the fractions containing the larger hydrocarbon molecules are broken up into smaller and more volatile molecules, this is called __________.

(Sublimation, Cracking, Roasting, Refining)

24. Cracking is also termed as __________.

(Pyrolysis, Refining, Polymerization, Hydrohalogenation)

25. A large number of organic compounds, especially the unsaturated ones, show a great tendency to unite. This process is termed as __________.

(Pyrolysis, Cracking, Polymerization, none of these)

26. An isomer of ethanol is __________.

(Dimethyl ether, Diethyl ether, Ethylene glycol, Methanol)

27. Organic compounds made up of carbon and hydrogen are called __________.

(Polymers, Hydrocarbons, Butanes, none of these)

28. Organic compounds other than the hydrocarbons may be considered to be derived from the hydrocarbons by the replacement of one or more of their __________ atoms with atoms or groups of atoms of other element.

(Carbon, Hydrogen, Nitrogen, none of these)

29. When ethylene is heated under pressure, a transparent solid polymer, __________ is obtained.

(Polyethene, Ethane, Methane, None of these)

30. An atom or group of atoms, which confers characteristic properties to an organic molecule, is called __________.

(Radical, Functional group, Polymer, none of these)

31. Compounds having same molecular formula but different structures are said to be __________.

(Polymers, Isomers, Radical, Functional group)

32. The quality of petroleum is determined by __________.

(Decane number, octane number, hexane number, none of these)

33. __________ of the following obey isomerism.

(CO2, C2H6O, CuSO4, none of these)

34. Two or more than two different compounds having the same molecular formula but different carbon chains or skeletons are said to be __________.

(Chain isomers, position isomers, functional group isomers, metamers)

35. The kind of isomerism which depends upon the relative position of the group, or the position of double or single bond in case of unsaturated compounds in termed as __________.

(Chain isomerism, Position isomerism, Functional Group isomerism, Metamerism)

36. Isomerism, which involves compounds having the same molecular formula, but different functional groups are called __________.

(Chain isomerism, Position isomerism, Functional Group isomerism, Metamerism)

37. __________ is exhibited by compounds having the same functional group but different alkyl attached to the same multivalent atom.

(Chain isomerism, Position isomerism, Functional Group isomerism, Metamerism)

38. In cracking usually catalyst used is __________.

(Pt, Aluminosilicate, Ni, Tetra-ethyl lead)

39. Iso-butane exhibited __________.

(Chain Isomerism, Position Isomerism, Functional group Isomerism, Metamerism)

40. In CCl4 molecule the four valencies of carbon atom are directed towards the corners of a __________.

(Cube, Hexagon, Prism, Tetrahedron)

41. Tetrahedral nature of bonding in carbon atom was first shown by __________.

(Wohler, Vant Hoff and LeBel, Lewis, Kekule)

42. The general formula (RCO)2O represents __________.

(An ether, ketone, an ester, an acid anhydride)

43. Formation of alkane by the action of zinc on alkyl halide is called __________.

(Frankland reaction, Wurtz reaction, Cannizzaro’s reaction, Kolbe’s reaction)

44. __________ of the following are isomers.

(Methyl alcohol and dimethyl ether, Ethyl alcohol and dimethyl ether, Acetone and Acetaldehyde, Proponoic acid and proponanone)

45. The isomers must have the same __________.

(Structural formula, molecular formula, chemical properties, physical properties)

46. __________ has the longest bond length.

(C = C, C Āŗ C, C – C, all of these)

47. In alkanes all C – C bonds have __________.

(single bond, double bond, triple bond, none of these)

48. Removal of one of the hydrogen atoms of an alkane produces a __________.

(alkyl group, ethyl group, methyl group, none of these)

49. Compounds in which two alkyl groups are attached to an oxygen atom are called __________.

(alkanes, ethers, alcohals, isomers0

50. Many hydrocarbons contain more than one OH groups in a molecule. Molecules of this type are called __________.

(Ethers, Polyhydroxy alcohols, aldehydes, none of these)

51. __________ is the common name of methanol.

(formaldehyde, acetaldehyde, propionaldehyde, none of these)

52. Compounds which contain carbonyl group but differ from aldehydes in that two alkyl groups are attached to the carbon of carbonyl group are called __________.

(Ethers, Ketons, Alcohols, none of these)

53. __________ is the common name of propanone.

(Acetone , ketone, Diethyl Ketone, none of these)

54. Benzene is a __________.

(Heterocyclic compound, Alicyclic compound, Aromatic compound, Acyclic)

55. Common name of formic acid is __________.

(Methanoic acid, Ethanoic acid, Propanoic acid, none of these)

56. The properties of organic compounds are due to __________.

(Covalent bonds, Functional groups, Ionic bonds, None of these)

Chapter 7

Hydrocarbons

1. Organic compounds, which contain element carbon and hydrogen only are called __________.

(Hyrocarbons, Ethers, Ketones, none of these)

2. The number of hydrocarbons is very large because of the property of hydrogen to __________, with it self in the form of chains and rings.

(Cmbine, Catenate, Sulphonation, none o these)

3. Carbon usually exhibits a covalency of __________.

(Two in most of its compounds, three in most of its compounds, four in most of its compounds, none of these)

4. Hydrocarbons, which contain single bonds, are called __________.

(alkanes, alkenes, alkynes, none of these)

5. Hydrocarbons, which contain double bonds, are called __________.

(alkanes, alkenes, alkynes, none of these)

6. Hydrocarbons, which contain triple bonds, are called __________.

(alkanes, alkenes, alkynes, none of these)

7. The alkanes have __________.

(tetrahedral frame work, planar molecules, linear structure, none of these)

8. The alkynes have __________.

(tetrahedral frame work, planar molecules, linear structure, none of these)

9. The alkenes have __________.

(tetrahedral frame work, planar molecules, linear structure, none of these)

10. Saturated Hydrocarbons are also called __________.

(Alkanes, Olefins, Alkenes, Alkanes and Olefins)

11. Unsaturated hydrocarbons are also called __________.

(Alkenes, Paraffins, alkanes, none of these)

12. Alkenes are characterized by the presence of __________ bond between two carbon atoms.

(single, double, triple, none of these)

13. Alkanes or paraffins are characterized by the presence of __________ bond between two carbon atoms.

(Single, double, triple, none of these)

14. Alkynes are characterized by the presence of __________ bond between two carbon atoms.

(single, double, triple, none of these)

15. Alkanes are also called __________.

(Paraffins, Olefins, Aldehydes, none of these)

16. Alkenes are also called __________.

(Paraffins, Olefins, Carbonyl, none of these)

17. An alkane hydrocarbon chain on cyclization would result in the formation of __________.

(Alicyclic compound, aromatic compound, ethers, none of these)

18. Benzene is the simplest example of hydrocarbon called __________.

(Alicyclic, aromatic, open chain, none of these)

19. Solid CH4 is __________.

(molecular solid, covalent solid, ionic solid, does not exist)

20. Methane is also known as __________.

(oil gas, marsh gas, gasoline, none of these)

21. A liquid hydrocarbon is converted into a mixture of gaseous hydrocarbon by __________.

(Cracking, Hydrolysis, Oxidation, Reduction)

22. __________ is obtained in the laboratory by heating a mixture of sodium acetate and soda lime.

(Alcohol, Ethene, Methane, none of these)

23. Alkenes undergo __________.

(addition reaction, substitution reaction, both addition and substitution reaction)

24. __________ does not react with aqueous solution of acids, alkalies, or potassium permanganate or other oxidizing agents and most of the usual laboratory reagents.

(Benzene, Ether, Methane, Acetic acid)

25. Bromine reacts with methane when the reaction is catalyzed by __________.

(Sunlight, high frequency radiation, diffused sunlight, nickel)

26. In methane the replacement of hydrogen by _ NO2 is called __________.

(Pyrolysis, Nitration, Halogenation, none of these)

27. Methane when heated to extreme temperature in the absence of air undergoes thermal decomposition, called __________.

(Nitration, Catalytic oxidation, Pyrolysis, none of these)

28. Urea, a useful fertilizer, is prepared on industrial scale from __________.

(Natural gas, Coal, Coke, Petroleum)

29. Carbon black is a raw material for paints and automobile tyres and is prepared from __________.

(Ethane, Ethene, Methane, none of these)

30. C2H6 is called __________.

(Methane, Ethane, Methanol, none of these)

31. __________ is obtained in the laboratory by heating sodium proponoate and soda lime.

(Methane, Ethane, Ethene, none of these)

32. In the laboratory ethane is prepared by the reaction called __________.

(Sabatier-Senderens Reaction, Pyrolysis, Catenation, Hydrohalogenation)

33. When an aqueous solution of sodium or potassium salt of mono-carboxylic acid is subjected to electrolytic, corresponding alkane is formed. This reaction is called __________.

(Sabatier-Senderens Reaction, Kolbe’s Electrolysis, Polymerization, chlorination)

34. On burning __________ produces a considerable amount of heat energy which may be used for welding process.

(Ethane, Benzene, Ethene, none of these)

35. __________ is found to be present in wood gas and coal gas.

(Methane, Ethene, Ethane, Benzene)

36. __________ is prepared on a small scale in the laboratory by heating together ethyl alcohol and sulphuric acid.

(Methane, Ethane, Ethylene, none of these)

37. The elimination of hydrogen halide (HX) from adjacent carbon atoms is called __________.

(Pyrolysis, Chlorination, Dehydrohalogenation, none of these)

38. __________ process is important in the hardening of vegetable and animals oils to produce solid fats which are used to make margarine.

(Pyrolysis, Catenation, Hydrogenation, Dehydrohalogenation)

39. When a mixture of ethene and air is passed over heated silver under pressure, we get __________.

(Epoxide, Superoxide, Suboxide, none of these)

40. The negative part of the addendum adds on to the carbon atom joined to the least number of hydrogen atoms. The statement is called __________.

(Markownikoff’s rule, Peroxide effect, Theile’s theory, Baeyer’s strain theory)

41. Baeyer’s test is the basis for detection of a __________ bond in an organic molecule.

(single, double, triple, none of these)

42. __________ was used in first world war.

(Phosgene gas, Mustard gas, Oil gas, Coal gas)

43. When a mixture of CO, C2H4 and C2H2 is passed through ammonical cuprous chloride solution then __________.

(Acetylene and CO are absorbed, CO is absorbed, C2H4 is absorbed, Nothing happens)

44. Ethylene dichloride is also called __________.

(Mustard gas, Dutch liquid, Polyethene, none of these)

45. __________ is used to manufacture mustard gas which is poisonous gas used as war gas.

(Ethane, Methane, Ethylene, none of these)

46. __________ is most found in alkenes.

(Chain isomerism, Geometrical isomerism, Mesomerism, Position Isomerism)

47. __________ poisonous gas is present in the exhaust fumes of car.

(Methane, Acetylene, HCl, Carbon dioxide)

48. __________ is used to import colour to stile green citrus fruit form ripening.

(Ethylene, Methane, Ethane, none of these)

49. The number of xylene isomers is __________.

(2, 3, 4, 5)

50. Ethylene dichloride and ethylene chloride are isomeric compounds. The statement which is not applicable to both of them is __________.

(react with alcoholic potash, react with aqueous potash and give the same product, are dihalides, answer Beilstein’s test)

51. Structure of benzene is __________.

(Diagonal, Planner, Pyramidal, Tetrahedral)

52. __________ is used in the manufacture of plastic and synthetic rubber.

(Styrene, Mustard gas, Polythene, none of these)

53. The polythene is a polymer of __________.

(Ethylene, Aceton, Propylene, Butadiene)

54. Acetylene or ethyne was discovered accidentally in 1899 by the American chemist __________.

(Wilsson, Lane, Nelson, none of these)

55. Acetylene is present in small proportions (about 0.06% by volume) in __________.

(Natural gas, Coal gas, Gasoline, Petroleum)

56. __________ is prepared in the laboratory by dropping water on calcium carbide.

(Ethylene, Acetylene, Methane, none of these)

57. The process used for the preparation of acetylene is __________.

(Berthelot Process, Sabatier-Senderns Reaction, Kolbe’s Process, none of these)

58. Acetylene has a characteristic ethereal smell resembling that of __________.

(Rotten egg, Garlic, Benzene, none of these)

59. Acetylene burns with __________ flame.

(Greenish, Bluish, Smoky, none of these)

60. Benzene was found by __________ in 1825 in the gas produced by the destructive distillation of vegetable oils.

(Hofmann, Michael Faraday, Solvay, none of these)

61. __________ found benzene in coal-tar.

(Hofmann, Michael Faraday, Solvay, none of these)

62. When n-hexane obtained from petroleum is heated in the presence of platinum at 500°C under 10 – 20 atmosphere pressure, it cyclises to give __________.

(Ether, Benzene, Mustard Gas, none of these)

63. Phenol is reduced to __________, when its vapours are passed over red hot zinc dust.

(Ether, Benzene, Ethane, Acetylene)

64. Replacement of hydrogen atom by – SO2 OH is called __________.

(Nitration, Sulphonation, Alkylation, Hydrogenation)

65. _ SO2OH is called __________.

(Sulphonic Group, Carbonyl group, Methyl group, none of these)

66. Under the influence of anhydrous aluminium chloride as a catalyst, benzene reacts with alkyl and acyl halides giving alkylated and acylated benzens. The reaction is called __________.

(Friedel-Cracts Reactions, Berthelot’s Reaction, Sabatier-Senderens Reaction, none of these)

Chapter 8

Alkyl Halides

1. Monohalo derivatives of alkanes are called __________.

(Acyl halides, Aryl Halides, Alkyl Halides, none of these)

2. The general formula of alkyl halides is __________.

(CnH2n+1 X, CnHn+1 X, C2nH2n+1 X, none of these)

3. When an alkene is treated with halogen acids, __________ is formed.

(Alkyl halide, Acyl halide, Carbonyl chloride, all of these)

4. Formula of Thionyl Chloride is __________.

(SOCl2, ZnCl2, CH3Cl, none of these)

5. If ethane is treated with HBr then __________.

(Ethyl bromide is formed, Methyl bromide is formed, Bromine is evolved, Hydrogen is obtained)

6. When metallic sodium in ether is heated with an alkyl halide, a higher alkane is formed. It is called __________.

(Sulphonation, Wurtz’s Reaction, Friedel-Crafts Reaction, none of these)

7. If sodium lead alloy is treated with methyl chloride then __________.

(Tetra ethyl lead is formed, Tetra methyl lead is formed, Tri methyl lead is formed, Di methyl lead is formed)

8. Dehydrohalogenation of alkyl halide is carried in the presence of alcoholic __________.

(NaOH, KOH, Ca(OH)2, none of these)

9. Grignard’s reagent when reacts with ammonia then __________.

(Methane is formed, Ethane is formed, Nitrogen is evolved, Magnesium is separated)

10. Grignard’s reagent reacts with alkyl halide to form __________.

(Alkanes, Alkynes, Alkenes, Alcohols)

11. Grignard’s reagents are __________.

(Alkyl halide, Alkyl magnesium halide, Alkyl sodium halide, none of these)

12. On passing CO2 through Grignard reagent __________ is formed.

(Methanoic acid, Ethanoic acid, Propanoic acid, No reaction occurs)

13. Alkyl halides (methyl chloride or ethyl chloride) when treated with __________, react to produce the important anti-knock gasoline additives.

(Sodium, Lead, Sodium-lead Alloy, none of these)

14. On adding formaldehyde to Grignard’s reagent __________ is formed.

(Primary alcohol, Secondary alcohol, Aldehyde, Acetone)

15. Action of zinc with alkyl halide in the presence of an inert solvent forms a corresponding higher alkane. This is called __________.

(Wurtz’s Reaction, Frankland Reaction, Hoffman’s Reaction, none of these)

16. The hydrolysis of alkyl halides by heating with aqueous alkali is a __________ substitution reaction.

(Electrophilic, Nucleophilic, Electrophile and Nucleophile, none of these)

17. __________ of the following compounds does not react with bromine.

(Ethylamine, Propene, Phenol, Chloroform)

18. A reaction in which an atom or group of atoms replaces an atom or group of atoms already present in the molecule of a substance is called __________.

(Nitration, Halogenation, Substitution, Sulphonation)

19. __________ is a Neucliphile.

(OH-, CN-, NH3, all of these)

20. General formula of Grignard’s reagent is __________.

(R – Mg – X, R – Al – X, R – Na – X, R – Cl – X)

21. __________ is prepared by heating methyl iodide with fresh magnesium turnings in anhydrous ether.

(Grignard’s reagent, Mustard gas, Benzene, none of these)

22. When Grignard’s reagent is hydrolyzed with water, it is converted into __________.

(Alkynes, Alkenes, Alkanes, Acetons)

23. __________ of the following alkyl halides is used as a methylating agent.

(C2H5Cl, C2H5Br, C2H5I, CH3I)

24. Ethyl chloride reacts with alcoholic KOH to give __________.

(C2H5OH, C2H6, C2H2, C2H4)

25. Dry carbon dioxide is passed through Grignard’s Reagent in the presence of __________ as a solvent.

(Acetone, Benzene, Ether, none of these)

26. Grignard’s reagent reacts with CO2 to form __________.

(HCl, Carboxylic acid, Acetic acid, Carbonic acid)

27. Grignard’s reagent reacts with acetaldehyde to form __________.

(Primary alcohol, Secondary alcohol, Tertiary alcohol, all of these)

28. Alkyl halides reacts with Zn to form __________.

(Alkynes, Alkanes, Alkenes, none of these)

Chapter 9

Organic Compounds

1. The action of nitrous acid on ethyl amine gives __________.

(Ethane, Ammonia, Ethyl alcohol, Nitroethane)

2. Isopropyl alcohol on oxidation gives __________.

(Ether, Acetone, Ethylene, Acetaldehyde)

3. Rectified spirit contains __________ % alcohol.

(95.6, 75.0, 100.0, 85.4)

4. __________ is the end product in the process of fermentation.

(Methyl alcohol, Ethanol, CH3OH, Ethylene)

5. __________ is not the characteristic of the alcohols.

(Their boiling points rise fairly uniformly with a rise in molecular weight, Lower members have a pleasant smell but burning taste and the higher ones are odourless and tasteless, these are lighter than water, Lower members are soluble in water and organic solvents but solubility decreases with increase in molecular weight)

6. In the dehydration of ethyl alcohol to ethylene with concentrated sulphuric acid __________.

(Carbonium ions are involved, carbonium are evolved, sulphuric acid acts as an electrophile, none of these)

7. A compound is an/a __________ if the “R-” group is derived from aliphatic or alicyclic hydrocarbons.

(Ether, Ketone, Alcohol, Phenol)

8. A compound which has –OH group attached to an aromatic hydrocarbon is called __________.

(Alcohol, Phenol, Ether, none of these)

9. A product formed by the reaction of sodium with ethanol is __________.

(H2O, NaOH, NaH, H2)

10. An alcohol, which contains on –OH group is called __________.

(Monohydric, Dihydric, Trihydric, none of these)

11. An alcohol, which contains on –OH group is called __________.

(Monohydric, Dihydric, Trihydric, none of these)

12. Primary, secondary and tertiary alcohols may be distinguished by using __________.

(Fehling’s solution, Victor Meyer test, Hofmann set, Beilstein test)

13. The number of structural isomers for C4H9OH is __________.

(3, 4, 5, 6)

14. In cold countries glycerol is added to water in car radiators as it helps to __________.

(bring down the specific heat of water, lower the freezing point, reduce the viscosity, make water a better lubricant)

15. Aldehydes and Ketons are commonly referred to as __________.

(Ethers, Carbonyl compounds, phenols, none of these)

16. Aldehyde may be distinguished from ketons by the use of __________.

(Concentrated Sulphyric acid, Grignard’s Reagent, Pyrogallol, Fehlings solution)

17. In aldehydes one bond of carbonyl group is always attached to __________.

(Carbon atom, Hydrogen atom, Nitrogen atom, none of these)

18. An aldehyde on oxidation gives __________.

(an alcohol, a ketone, an acid, an amine)

19. Acid anhydrides are calls of carboxylic acid derivatives, which may be formed by the elimation of __________.

(Carbon, Hydrogen, Water, none of these)

20. Formaline is an aqueous solution of __________.

(Formic acid, Formaldehyde, Flurescein, Furfuraldehyde)

21. Methyl alcohol is known commercially as __________.

(Wood-spirit, Wood Naphtha, Mustard gas, both Wood spirit and Wood- Naphtha)

22. __________ discovered Methyl alcohol.

(Boyle, Salvay, Jabber Bin Hayyan, none of these)

23. When wood is heated with an insufficient supply of air, organic materials are driven off as gases, and the cellulose is decomposed to almost pure carbon is called __________.

(Coal, Charcoal, Oil gas, Natural gas)

24. Now a days a large quantity of methyl alcohol is obtained by passing __________ over heated zinc and chromium oxides at 400 - 450°C under 200 atmospheric pressure.

(Natural gas, Water gas, Ethylene, none of these)

25. Methyl alcohol can cause __________.

(Cancer, Blindness, Aneimia, none of these)

26. The reaction of alcohol with thionyl chloride (SOCl2) in the presence of solvent called __________.

(Pyridine yields, Adenine yields, Guanine yields, none of these)

27. Ethyl alcohol often called __________.

(Alcohol, Spirit, Ether, Lacquer)

28. Ethyl alcohol is also called __________.

(Methyalted spirit, Spirit of wine, Wood spirit, none of these)

29. __________ is also present in the urine of diabetic patients.

(Spirit of wine, Wood spirit, Methane, none of these)

30. In 1808, __________ discovered ethyl alcohol in urine of diabetic patients.

(Boyl, Suassure, Mendleeve, none of these)

31. Ethyl alcohol is produced on commercial scale by the biological break down of __________,

(Starch, Minerals, Cellulase, None of these)

32. The 14 enzymes present in the living cells of the yeast are collectively called __________.

(Substrate, Zymase, Amylase, none of these)

33. The force of attraction of the electrons of one atom for the protons of another atom in close proximity is called __________.

(Ionic bond, Hydrogen bond, Covalent bond, all of these)

34. __________ of the following compounds can form a hydrogen bond.

(CH4, H2O, NaCl, CHCl3)

35. When two ice cubes are pressed over each other, they unite to form one cube. __________ of the following forces is responsible to hold them together.

(Hydrogen bond formation, Vander Waal’s forces, Covalent bond, Dopole Interaction)

36. CH3OH and C2H5OH are highly miscible with water because they exhbits __________.

(Ionic bonding, Covalent bonding, Hydrogen bonding, none of these)

37. Alcohols may be converted to the corresponding __________ by actions of halogen acids in the presence of ZnCl2.

(Aldehydes, Alkyl halides, acyl halides, none of these)

38. Compounds obtained by the elimination of a molecule of water between an alcohol and hydroxyl group of the acid are called __________.

(Ethers, Esters, Ketons, Phenols)

39. During the dehydration of alcohols, relatively high temperature and moderate alcohol concentration yield the corresponding __________.

(Ether, Olefin, Paraffin, none of these)

40. Ethyl alcohol may be identified by the __________.

(Bayer’s Test, Flame Test, Idoform Test, Chloroform Test)

41. Industrially, formaldehyde is made from methyl alcohol by __________.

(Dehydrogenation, Dehydrohalogenation, Oxidation, Reduction)

42. Dry distillation of calcium formate yields __________.

(Ether, formaldehyde, Acetic acid, none of these)

43. An aldehyde is converted to carboxylic acid on __________ with K2Cr2O7 and H2SO4.

(Reduction, Oxidation, Dehydrogenation, all of these)

44. When aldehydes are warmed with __________, red precipitates of cuprous oxide are precipitated.

(Grignard’s Reagent, Fehlings solution, KMnO4, none of these)

45. Aldehydes can be distinguished from Ketons by using __________.

(Schiff’s reagent, Concentrated sulphruric acid, Anhydrous Zinc chloride, Resorcinol)

46. In ketons the two bonds of the carbonyl are attached to two __________.

(alkyl group, aryl group, hydrogen group, alkyl group and aryl group)

47. Formation of acetaldehyde from ethanol is called __________.

(Addition, Reduction, Oxidation, Substitution)

48. Aldehydes can be distinguished from ketons by __________.

(AgNO3, CH3COOH, conc. H2SO4, Fehlings solution)

49. Acetaldehyde reacts with __________.

(nucleophiles only, electrophiles only, free radicals only, both with nucleophiles and electrophiles)

50. When aldehydes are warmed with a ammonical solution of silver nitrate, they precipitated metallic silver which often form a mirror. This reaction is called __________.

(Tollen’s Test, Fehlings Test, Idoform Test, none of these)

51. Acetaldehyde reacts with ammonia to form __________.

(Condensation products, substitution products, addition product, resin like product)

52. __________ prepared the first synthetic plastic, by combing formaldehyde with phenol under heat and pressure.

(Newlands, Blackeland, Russel, Charles)

53. __________ is used medically as a urinary antiseptic.

(Formaldehyde, Benzene, Sulphuric acid, Methanamine)

54. Aldol condensation can occur between __________.

(an aldehyde and ketone, an aldehyde and ester, an aldehyde and benzene, none of these)

55. Aldol condensation between __________ of the following compounds, followed by dehydration gives methyl vinyl ketone.

(HCHO and CH3COCH3, HCHO and CH3CHO, Two molecules of CH3CHO, Two molecules of CH3COCH3)

56. Aldol condensation can occur between __________.

(two aldehydes (identical or different), an aldehyde and ester, an aldehyde and benzene, none of these)

57. Aldol condensation can occur between __________.

(two aldehydes and phenols, two ketons(identical or different), an aldehyde and benzene, none of these)

58. A nucleophilic addition of carbonion, generated by the loss of proton from a-position of an aldehyde or a ketone by a base, to the carbonyl group, is called __________.

(Nitration, Aldol Condensation, Esterification, none of these)

59. The aldehydes having no hydrogen attached to a-carbon atom when treated with concentrated solution of an alkali, undergo self-oxidation and reduction, forming a mixture of an alcohol and a salt of corresponding carboxylic acid. The reaction is known as __________.

(Fehlings reaction, Cannizzaro reaction, Formalin reaction, none of these)

60. An aqueous solution containing about 40% of formaldehyde and a little alcohol is sold under the name of __________.

(Formalin, Malt-sugar, Pyridine, Starch)

61. Gelatine, a substance readily soluble in water, becomes insoluble when it is treated with __________.

(Formalin, Malt sugar, Benzene, Resins)

62. __________ is used as preservative for biological specimens.

(Benzene, Ketone, Alcohol, Formaline)

63. Alive polio virus in the culture fluid is made harmless by addition of __________ in the processing of anti-virus vaccine.

(Benzene, Acetic acid, formaldehyde, Carboxylic acid)

64. Acetic acid is manufactured from the brown aqueous distillate known as __________ which is obtained by the destructive distillation of wood and contains a mixture of acetic acid, acetone and methyl alcohol.

(Formalin, Pyroligenous acid, Pyridine, Acetylene)

65. The most general method of preparing __________ is by oxidation of corresponding aldehydes or primary alcohols.

(Phenols, Carboxylic acids, ketones, none of these)

66. The chemical properties of the carboxylic acids depend chiefly on the __________.

(Hydroxyl group, Carbonyl group, Methyl group, none of these)

67. __________ is used for coagulating rubber and latex and curing fish as well.

(Alcohol, Acetic acid, Wood spirit, none of these)

68. Ethyl acetate is an example of a important class of substance known as __________.

(Ketones, Esters, Alcohols, none of these)

69. Ethyl acetate (an ester) can be prepared by the action of __________ on carboxylic acid, in the presence of acidic media.

(Phenols, Formalin, Pyradine, Alcohol)

70. Molecular hydrogen in presence of suitable catalysts reduces carbonyl compounds to __________.

(aCetones, Ethers, Esters, Alcohols)

71. __________ is used as a nail-polish remover.

(acetone, Benzene, Idoform, none of these)

72. Acetone may be converted into propane by heating with __________.

(conc HCl and 24/Hg, Mg + H2O, conc HI and red P, Zn/Cu couple and ethanol)

73. __________ is the solvent used in the preparation of Grignard’s reagent and in Wurtz reaction.

(Ethers, Phenoles, Ketons, Alcohols)

74. The hydroxyl group derivatives of aromatic hydrocarbons, which have the –OH group directly bonded to the ring carbon atoms are called __________.

(Esters, Acetons, Alcohols, Phenols)

75. Carbolic acid is prepard from __________.

(Dow’s Process, Down’s Process, Nelson’s Process, none of these)

76. Phenol is colourless, poisonous __________.

(Liquid, Gas, Solid, none of these)

77. Above __________ °C phenol is miscible with water in all proportions, but below this temperature, it is only partially miscible.

(78.5, 68.5, 58.5, none of these)

78. Phenol is reduced to __________ when its vapours are passed over red hot zinc dust or distilled in the presence of zinc dust.

(Alcohol, Benzene, acetone, none of these)

79. Action of zinc with alkyl halide in the presence of an inert solvent forms a corresponding higher alkane. This is called __________.

(Wurtz’s reaction, Frankland’s reaction, Hoffman’s reaction, none of these)

80. The hydrolysis of alkyl halides by heating with aqueous alkali is a __________ substitution reaction.

(Electricphilic, Nucleophilic, Electrophilic and Nucleophilic, none of these)

81. __________ is prepared by heating methyl iodide with fresh magnesium turnings in anhydrous ether.

(Grignard’s reagent, Mustards gas, Benzene, none of these)

82. Dry carbon dioxide is passed through Grignard’s reagent in the presence of __________.

(Acetone as a solvent, Benzene as a solvent, Ether as a solvent, none of these)

Chapter 10

Chemistry of Life

1. Starch is a polymer of __________.

(Glucose, Fructose, Lactose, Maltose)

2. A material cannot be termed as food unless it contains at least one __________.

(Vitamine, Mineral, Nutrient, Amino acid)

3. On heating glucose with Fehling’s solution we get a precipitate of colour __________.

(Yellow, Red, Black, Green)

4. It is the best to carry out reactions with sugars in neutral or acid medium and not in alkaline medium. This is because in alkaline medium sugars undergo __________ of the following changes.

(Racemisation, Decomposition, Inversion, Rearrangement)

5. __________ food component regulates body processes.

(Minerals, Fats, Proteins, Carbohydrates)

6. The process by which large non-diffusuble organic molecules are converted into smaller diffusible molecules is known as __________.

(Ingestion, Fermentation, Decomposition, Digestion)

7. The solution of sugar in water contains __________.

(Free atoms, Free ions, Free molecules, Free atoms, and free molecules)

8. During digestion carbohydrates are broken down to __________.

(Glucose, Amino acids, Fatty acids, None of these)

9. During digestion proteins are broken down to __________.

(Glucose, Amino acids, Fatty acids, none of these)

10. __________ of the following gives a deep blue colour with a drop of dilute solution of iodine.

(Cellulose, Glucose, Starch, Sugar)

11. During digestion fats are broken down to __________.

(Glucose, Amino acids, Fatty acids, none of these)

12. The use of the products of digestion in synthesis of cellular structure is known as __________.

(Metabolism, Assimilation, Homeostasis, None of the above)

13. The percentage of glucose in human blood is __________.

(0.1, 0.2, 9.3, 0.4)

14. Carbohydrates supply about __________ of energy per gram.

(4 kcal, 2 kcal, 2 kcal, 1 kcal)

15. The main source of cellulose is __________.

(cotton, wood, both cotton and wood, none of these)

16. Fats provide about __________ of energy per gram.

(4kcal, 2 kcal, 9kcal, 5kcal)

17. Of the following, __________ is a high-energy food.

(Proteins, Fats, Carbohydrates, none of these)

18. Glucose and fructose are __________.

(Geometrical Isomers, Metamers, Optical Isomers, none of these)

19. __________ isomers of glucose are known.

(4, 8, 16, 32)

20. The digestion of carbohydrates begins with the mastication in the mouth, where enzyme __________ of the saliva hydrolyses some of the starch to maltose.

(Ptyalin, Amylase)

21. Human body tissue contains __________% carbohydrates.

(1, 2, 3, 4)

22. Carbohydrates are ultimately converted into glucose and other simpler products in the __________.

(Mouth, Stomach, Small intestine, Large intestine)

23. The use of products of digestion in synthesis of cellular structures is called __________.

(Assimilation, Metabolism, Excretion, Digestion)

24. The products of oxidation of glucose are __________.

(Carbon dioxide and water, Oxygen and Hydrogen, Carbon dioxide and hydrogen, none of these)

25. Glucose is termed as __________.

(Single nutrient food, double nutrient food, multi nutrient food, none of these)

26. Deficiency of all nutrients leads to __________.

(Nutrition, Malnutrition, Under Nutrition, none of these)

27. The recommended daily intake of protein per kilogram of the body weight is __________.

(0.8 gm, 0.9 gm, 0.6 gm, 1.0 gm)

28. Lipids and Proteins are made of __________.

(Macromolecule, Micromolecule, Microatom, None of these)

29. The digestion of proteins begins in the __________.

(Mouth, Stomach, Small intestine, Large intestine)

30. The enzyme __________ of gastric juice, catalyses the hydrolysis of peptide linkage in protein molecules.

(Renin, Trypsin, Pepsin, Amylase)

31. In the mouth of some of the starch is hydrolyzed to maltose by the action of enzyme __________.

(Ptylin, Lipase, Renin, Amylase)

32. In the body dietary proteins are the source of __________,

(Amino acids, Fatty acids, Lipids, none of these)

33. A large class of compounds that are polyhydroxy aldehydes or ketones, or substances that yield such compounds upon acid hydrolysis are called __________.

(Fats, Carbohydrates, Proteins, vitamins)

34. Plants are able to synthesis their own carbohydrates from CO2 of the air and water taken from the soil in the presence of sunlight and chlorophyll. This process is called __________.

(Nutrition, Assimilation, Photosynthesis, Homeostasis)

35. Human diet consist of 60 – 65% by mass of the average diet on __________.

(Fats, Carbohydrates, Proteins, vitamins)

36. Carbohydrates, which have three to nine carbon atoms and are not hydrolysable are called __________.

(Monosacchrides, Ddi-saccharides, Poly-saccharides, None of these)

37. The carbohydrates, which have three to nine carbon atoms and are not hydrolysable are called __________.

((Monosacchrides, Ddi-saccharides, Poly-saccharides, None of these)

38. The balanced diet contains amount __________ per day.

(60 gm, 70 gm, 80 gm, 90 gm)

39. Glucose is __________.

(a monosacchride carbohydrate, a di-saccharide carbohydrate, a poly-saccharide carbohydrate, none of these)

40. A class of carbohydrates which are formed by the condensation of two or more monosaccharide units with the loss of water molecules are called __________.

(Disaccharides, Poly saccharides, Pentoses, none of these)

41. Sucrose is an example of __________.

(a monosacchride carbohydrate, a di-saccharide carbohydrate, a poly-saccharide carbohydrate, none of these)

42. On hydrolysis __________ is broken down into two simpler sugars glucose and fructose.

(Glucose, Sucrose, Maltose, none of these)

43. Glucose is also called __________.

(Dextrose, Maltose, Fructose, Mannose)

44. Corn syrup contains __________.

(Glucose, Fructose, Mannose, Maltose)

45. Fructose occurs in many __________.

(Cereals, Fruits, Vegetables, none of these)

46. Honey is a mixture of __________.

(Glucose and Fructose, Glucose and Maltose, Fructose and Mannose, Glucose and Fructose with vitamins and minerals)

47. The carbohydrates, which contain hundreds to thousands of monosacchride units are called __________.

(Polysacchrides, Oligosaccharides, Hexoses, None of these)

48. Cellulose is an example of __________.

(Monosaccharides, Di-saccharides, Polysaccharides, None of these)

49. The main difference between starch and cellulose is the type of links between __________.

(Mannose units, Glucose units, Fructose, units, none of these)

50. Vitamin was discovered by __________.

(Casimir Funk, Blackeland, Hopkins, Elmer)

51. Vitamin A was discovered by __________.

(Elmer McCollum, Casimir funk, Hopkins, none of these)

52. Vitamin D was discovered by __________.

((Elmer McCollum, Casimir funk, Hopkins, none of these)

53. Fat-soluble vitamins are found associated with __________ in natural foods.

(Renin, Lipids, Peptides, Maltose)

54. Fat soluble vitamins include __________.

(Vitamin A, B, C, D, Vitamin A, B, C, Vitamin A, D, E, K, Vitamin K)

55. Water-soluble vitamins include __________.

(Vitamin A, B, Vitamin A, B, C, vitamin B, C, Vitamin A, C)

56. Vitamin B1 is called __________.

(Thiamin, Riboflavin, Niacin, Pyridoxine)

57. Vitamin B2 is called __________.

(Thiamin, Riboflavin, Niacin, Pyridoxine)

58. Vitamin B5 is called __________.

(Thiamin, Riboflavin, Niacin, Pyridoxine)

59. Vitamin B6 is called __________.

(Thiamin, Riboflavin, Niacin, Pyridoxine)

60. Vitamin B12 is called __________.

(Cyanocoalamine, Riboflavin, Niacin, Pyridoxine)

61. Most water-soluble vitamins act as __________.

(Enzymes, Coenzymes, Coenzymes or are required for the synthesis of coenzymes, none of these))

62. People who consume too much vitamin __________, may develop bone pain, bone like deposits in the kidneys, and mental retardation.

(A, B, C, D)

63. Edible lipids constitute approximately __________ % of the diet of an average person.

(25-28, 25-30, 25-32, 25-35)

64. The most important energy storage compounds in the animal kingdom are __________.

(Peptides, Lipids, Amino acids, none of these)

65. Plants store most of the energy in the form of carbohydrates primarily as __________.

(Amino acids, Starch, Cellulose, Maltose)

66. The nutrients of our food which provide insulation for the vital organs, protecting them from electrical shocks and maintaining optimum body temperature are called __________.

(Amino acids, Steroids, Lipids, Fatty acids)

67. Lipids that contain both polar and non polar groups are integral components of __________.

(Cell wall, Cell membrane, Cytoplasm, Mitochondria)

68. Steroids is an important type of __________.

(Proteins, Vitamins, Lipids, Carbohydrates)

69. The most abundant and the most important steroid in the human body is __________.

(Riboflavin, Cholestrol, Folic acid, Inositol)

70. __________ is an important precursor in the biosynthesis of sex-hormones, synthesis of adrenal hormones and vitamin D.

(Insitol, Cholestrol, Lipoic Acid, Biotin)

71. On the average, more than 50% of the total dry weight of the cells is composed of __________.

(Carbohydrates, Proteins, Fats, Water)

72. The Dutch chemist, GJ Mulder (1883), is credited as being one of the first scientists to recognize the importance of __________.

(Vitamins, Carbohyrates, Proteins, Fats)

73. __________ organic compound is a major structural component of an animal tissue.

(Carbohydrates, Proteins, Cellulose, Lipids)

74. Hormones are made of __________.

(Proteins, Fats, Carbohydrates, Lipids)

75. Antibodies are __________.

(fats in nature, carbohydrates in nature, protein in nature, vitamins in nature)

76. Enzymes are __________.

(carbohydrates in nature, proteins in nature, fats in nature, none of these)

77. Haemoglobin is a __________.

(Protein, Carbohydrate, Fat, Mineral)

78. The primary function of proteins is __________.

(Energy supply, body building, body building and maintenance, protection of body)

79. __________ nutrients of food are stored by the body as energy reserves.

(Carbohydrates and lipids, proteins and lipids, proteins and carbohydrates, none of these)

80. for a normal adult with a constant weight, the recommended daily intake of protein is approximately __________ gram per kg of body weight.

(0.2, 0.4, 0.6, 0.8)

81. 33% - 43% protein is present in __________.

(Food yeast, Soya bean, Rice, Cheese)

82. The percentage of protein in chicken food is __________%.

(28, 21, 33, 12)

83. The protein in milk is __________%.

(2, 3, 12, 19)

84. Fats are esters of glycerol and __________.

(Faty acids, Lipids, Steroids, none of these)

85. The percentage of protein in egg is __________%.

(12-18 , 12-24, 12-36, 12-48)

86. The percentage of protein in flour is __________%.

(18, 12, 6, 3)

87. The percentage of protein in fish is __________%.

(18-21, 12-18, 6-36, 3-9)

88. The percentage of protein in rice is __________%.

(6-7, 2-3, 5-11, 11-19)

89. The percentage of protein in fresh vegetables is __________%.

(5-6, 7-17, 4-7, Rarely contains 2-3)

90. Amino acids are the building blocks of __________.

(Carbohydrates, Proteins, Lipids, Fats)

91. Proline amino acids have __________ group and –COOH group attached to the same carbon atom.

(-NH3, -NH2, -NH, -OH)

92. Amino acids are widely classified __________.

(according to the number of –NH2 group, according to the number of –COOH group, according to polarity of their side chain, all of these)

93. The first amino acid was isolated in 1806 and was given the name __________.

(Asparangine, Glycine, Renin, Maltose)

94. The major amino acid found in gelatin is __________.

(Glycine, Asparangine, Renin, none of these)

95. Esters of Glycerol and Fatty acids are called __________.

(Acids, F, Proteins, Carbohydrates)

96. Among the most important of the natural __________ are the cotton seed oil, corn oil, butter, tallow and olive oil.

(Fats, Proteins, Carbohydrates, Vitamins)

97. Unsaturated vegetable oils, such as cotton seed oil are converted into fast on __________.

(Oxidation, Dehydration, Hydrogenation, Sulphonation)

98. The hydrogenation of oils is accomplished easily by bubbling hydrogen into the oil in the presence of catalyst __________.

(Pt, Ni, Zn, ZnO)

99. Naturally occurring fatty acid nearly always have an/a __________ number of carbon atoms.

(Even, Odd, Even and odd, none of these)

100. Liquid fats are called __________.

(Fatty acids, Oils, Ketones, Lipids)

101. The degree of undaturation of a fat or oil is usually measured by the __________.

(number of carbon atoms, number of hydrogen atoms, iodine number, none of these)

102. The number of grams of iodine that will be consumed by 100 grams of fat or oil is called __________.

(Iodine complex, Iodine number, Iodoform, None of these)

103. Brain cells are made of __________.

(Proteins, Fats, Carbohydrates, Lipids)

104. Nerve tissues are made of __________.

(Fats, Proteins, Carbohydrates, Steroids)

105. Fat-soluble vitamins are obtained from __________.

(Carbohydrates, proteins, fats, lipids)

106. Vegetable oils such as peanut oil contain vitamin __________.

(A, B, C, E)

107. Milk fat, butter, cream, and fish liver oil contain vitamin __________.

(A, B, C, A and D)

108. Our balanced diet contains 70 grams per day of __________.

(Carbohydrates, Proteins, Fats, None of these)

109. About 35% of our daily caloric requirements are obtained from __________,

(Carbohydrates, Proteins, Fats, Vitamins)

110. __________ is the term used to reflect the development of any disagreeable odour in the fat or oil.

(Acidity, Basicity, Rancidity, none of these)

111. Two principal chemical reactions responsible for causing rancidity are __________.

(Oxidation and Hydrogenation, Oxidation and Hydrolysis, Hydrolysis and fermentation, Oxidation and Pyrolysis)

112. The reaction of fat with a strong base such as NaOH to produce glycerol and the salt of a fatty acid is used to produce __________.

(Soap, Glucose, Vegetable oil, Gastric Juice)

113. The word enzyme has a __________.

(Greek origin, Latin origin, Roman origin, Arabic origin)

114. In living systems enzymes catalyze reactions at __________°C.

(0, 25, 100, 37)

115. The substance upon which an enzyme acts is known as its __________.

(base, substrate, nutrient, pair)

116. The amount of enzyme, which will catalyze the transformation of one micro-mole of a substrate per minute is termed as __________.

(Substrate, potency, activity, specific activity)

117. Units of enzyme per milligram of proteins are termed as __________.

(activity, potency, turn over, none of these)

118. The number of moles of substrate transformed per mole of enzyme per minute at a definite temperature is called __________.

(Potency, Turn over, Activity, none of these)

119. Enzymes are most commonly named by adding the suffix to the root of the name of the substrate __________.

(ose, ase, ane, ene)

120. Urease acts upon __________.

(Sucrose, Urea, Ammonia, Starch)

121. Sucrose is also called __________.

(invertase, Urea, Renin, Amylase)

122. __________ is an enzyme.

(Sucrose, Sucrase, Maltose, Urea)

123. __________ enzyme was first obtained by grinding pancreatic tissue with glycerol.

(Amylase, Urea, Ascorbic Acid Oxidase, Trypsin)

124. The site of the enzyme, which combines with the substrate, and at which transformation from substrate to products occurs, is called he __________.

(Cellular site, Active site, Vacant site, Complex)

125. The main factors, which effect enzyme activity, are __________.

(concentration, temperture and pH, concentration, temperature, pH and co-enzymes, concentration, temperature, pH, co-enzymes (activators and inhibitors) and radiation, co-enzymes, activators and inhibitors)

126. The majority of enzymes are most active at about __________ °C.

(35, 45, 55, all of these)

127. Many enzymes contain a protein part and a non-protein part. The protein part is called the __________.

(Apoenzyme, Coenzyme, Enzyme, none of these)

128. The non-protein part in enzyme is termed as __________.

(Apoenzyme, coenzyme, substrate, all of these)

129. Examples of co-enzymes are __________.

(Vitamins, Compounds derived from vitamins, Vitamins or compounds derived from vitamins, all of these)

130. In organic substances that tend to increase the activity of an enzyme are called __________.

(activators, Inhibitors, Apoenzymes, coenzymes)

131. Magnesium ion is an inorganic activator for the enzyme __________.

(Trypsin, Carbonic anhydrate, Sucrase, Phosphatase)

132. Zinc ion is an activator for the enzyme __________.

(Amulase, Carbonic anhydrase, Renin, Phosphatase)

133. Substances, which tend to decrease the activity of enzyme are called __________.

(Activators, Accelerators, Inhibitors, Retarders)

134. Enzymes are generally inactivated rapidly by exposure to __________.

(Ultraviolet light, b-rays, g-rays, X-rays, all of these)

Chapter 11

Chemical Industries in Pakistan

1. The substances added to the soil to provide one or more nutrient elements essential for plants growth are called __________.

(Growth hormones, Minerals, Fertilizers, Salts)

2. The substances added to the soil in very small amounts (about 6 grams to 200 grams per acre) are called __________.

(Macronutrients, Micronutrients, Fertilizers, none of these)

3. Fertilizers are classified into __________.

(two major categories, three major categories, four major categories, none of these)

4. Natural fertilizers are materials derived from __________.

(plants, animals, algae, all of these)

5. A natural fertilizer provide about __________ kg of nitrogen.

(4.5, 3.2, 2.2, 1.5)

6. A natural fertilizer provides __________ kg of P2O5.

(4.5, 3.2, 2.2, 1.5) A

7. A natural fertilizer provides __________ kg of potash (K2O).

(4.5, 3.2, 2.2, 1.5)

8. The percentage of nitrogen in ammonia is __________%.

(32, 55, 82, 25)

9. The percentage of nitrogen in ammonium Nitrate is __________%.

(32-33.5, 50-55, 80-82, 20-25)

10. The percentage of nitrogen in ammonium sulphate is __________%.

(27, 21, 23, 19)

11. The percentage of sulphur in ammonium sulphate is __________%.

(25, 21, 23, 19)

12. The percentage of nitrogen in Urea is __________%.

(37, 50, 46, 82)

13. Ammonia when used directly as a fertilizer is to be injected about __________ under the surface to keep it from seeping out.

(2 inches, 4 inches, 6 inches, 8 inches)

14. Ammonium nitrate is sold as a mixture with __________.

(Soda Ash, Limestone, Zinc, None of these)

15. The percentage of nitrogen in Diammonium hydrogen phosphate is __________%.

(16, 48, 32, 64)

16. The percentage of P2O5 in diammonium hydrogen phosphate is __________%.

(16, 32, 48, 64)

17. A fertilizer; potassium chloride is sold as __________.

(Muriate of potash, Mixture of potash, Potency of potash, none of these)

18. The percentage of K2O in potassium chloride is __________%.

(60-63, 50-70, 40-80, 30-90)

19. Potassium sulphate with 48% to 52% potash, is made from __________.

(Potassium Phosphate, Potassium Chloride, Potassium Nitrate, none of these)

20. __________ is preferred for horticultural crops and for tobacco and potatoes.

(Potassium chloride, Potassium sulphate, Potassium Nitrate None of these)

21. __________ is used for fruits, vegetables and tobacco.

(Potassium chloride, Potassium sulphate, Potassium Nitrate None of these)

22. Any material, which changes the cleaning effect of water, is called __________.

(Fertilizers, Detergent, Acid none of these)

23. __________ are sodium and potassium salt of long chain fatty acids.

(Soaps, Detergents, Fertilizers, None of these)

24. __________ contain sodium or potassium salts of aryl or alkly sulphonated acids as one of their constituents.

(Soaps, Detergents, Fertilizers, none of these)

25. Soap is a surfactant of the type __________.

(anionic, cationic, nonionic, none of these)

26. __________ is best in its cleaning action.

(Soap, Detergents, Surfactant, None of these)

27. Hydrolytic reaction of fat with caustic soda is known as __________.

(Esterification, Saponification, Acetylation, Carboxylation)

28. Turpentine is obtained from __________.

(Oak tree, Pine tree, Birch tree, Lemon tree)

29. __________ surfactants perform well over a wide range of water hardness and pH.

(Anionic, Cationic, Nonionic, none of these)

30. Fats and oils are __________.

(Acids, alcohols, salts, none of these)

31. Washing soap can be prepared by saponification with alkali of __________ of the following oil.

(Rose oil, Paraffin oil, Groundnut oil, Kerosene oil)

32. Commercial detergents contain mainly __________.

(RCOON, RONa, RSNa, ROSO3Na)

33. Sodium tripolyphosphate is __________.

(a surfactant, a builder, a auxiliary agent, none of these)

34. In glass or vitreous state solid the atoms are arranged in __________.

(Regular fashion, Random fashion, Linear fashion, none of these)

35. Glass was first made by about __________.

(40BC, 400BC, 4000BC, none of these)

36. The number of glass products now manufactured is __________.

(25,000, 50,000, 75,000, none of these)

37. The substance that can form the glassy, non-crystalline structure is called __________.

(Formers, Fluxes or modifiers, Stabilizers, none of these)

38. The principle former of almost all glasses is __________.

((SiO2)n, (SiO3)n, (SiO2)X, none of these)

39. Chemical compounds, which are added to reduce the reactivity of glass, are called __________.

(Formers, Modifiers, Stabilizers, none of these)

40. __________ is used as stabilizer.

(Ca2O, SiO2, Na2O, none of these)

41. In glass making the whole combination of ingredients is called a __________.

(Gangue, Batch, Mixture, none of these)

42. The melting of nearly all glass is done in a continuous tank furnace, which operates steadily over periods of up to __________.

(a day, a month, a year, none of these)

43. __________ is a heat-treatment cycle that prevents glass from harmful stress.

(Forming, Annealing, Batching, none of these)

44. __________ is used for Annealing.

(Klin, Batch, Converter, Oven)

45. The main constituents of __________ are boron oxide and silica.

(Pyrex glass, Soda-lime glass, Low silica glass, Fibrous glass)

46. In Pakistan how many units are involved in the production of glass __________.

(20, 25, >25, none of these)

47. In Pakistan the total production of glass is over __________ tons per year.

(800, 8000, 80,000, none of these)

48. Asbestos is a __________.

(Mineral fibre, Animal fibre, Vegetable fibre, none of these)

49. __________ is the fibre in which the basic polymer (fibre forming substance) is a long chain composed of least 85% by weight of Acrylonitrile units.

(Acrylic Fibre, Modacrylic fibre, Polyster fibre, Rayon Fibre)

50. The fibre, which has less than 85% but more than 35% proportion by weight, of acrylonitrile units is called __________.

(Acrylic fibre, Modacrylic fibre, Polyster fibre, Rayon fibre)

51. __________ is the fibre in which the fibre-forming substance is a long chain synthetic polymer composed of at least 85% by weight of an ester of a dihydric alcohol and terephthalic acid.

(Acrylic fibre, Modacrylic fibre, Polyster fibre, Rayon fibre)

52. __________ is a fibre composed of regenerated cellulose in which substituents have replaced nor more than 15% of the hydrogen of the hydroxyl group.

(Acrylic fibre, Modacrylic fibre, Polyster fibre, Rayon fibre)

53. __________ compound contains cellulose acetate as fibre forming substance.

(Acrylic fibre, Modacrylic fibre, Acetate fibre, Rayon fibre)

Comments :

So far 6 comments on “Chemistry XII Karachi Board MCQs”
Anonymous said...
pada hari 

Where can i find the ans. of these mcq's?

Anonymous said...
pada hari 

please sir also send the ans. of these mcq's.

Anonymous said...
pada hari 

please send ans also

Unknown said...
pada hari 

Answer to do kutoon

Unknown said...
pada hari 

wherez ans key.....

Unknown said...
pada hari 

please give me the answer key

Post a Comment

Note: Only a member of this blog may post a comment.

 

© Copyright 2010-2015 Pk-Sites all rights reserved.

A category of .: SitesPk :.