Read the passage given below and answer the following questions:
In an ideal crystal, there must be regular repeating arrangement of the constituting particles and its entropy must be zero at absolute zero temperature. However, it is impossible to obtain an ideal crystal and it suffers from certain defects called imperfections. In pure crystal, these defects arises either due to disorder or dislocation of the constituting particles from the normal positions or due to the movement of the particles even at absolute zero temperature. Such defects increase with rise in temperature. In addition to these certain defects arise due to the presence of some impurities. Such defects not only modify the existing properties of the crystalline solids but also impart certain new characteristics to them.
Answer the following MCQs by choosing the most appropriate options:
1) AgCl is crystallized from molten AgCl containing a little \(CdCl_2\). The solid obtained will have
(a) cationic vacancies equal to number of \(Cd^{2+}\) ions incorporated.
(b) cationic vacancies equal to double the number of \(Cd^{2+}\) ions.
(c) anionic vacancies.
(d) neither cationic nor anionic vacancies.
2) Lattice defect per \(10^{15}\) NaCl is 1. What is the number of lattice defects in a mole of NaCl?
(a) 6.02 × \(10^{23}\)
(b) 6.02 × \(10^8\)
(c) \(10^{14}\)
(d) None of these
3) The ionic substances in which the cation and anion are of almost similar size shows
(a) non-stoichiometric defect
(b) Schottky defect
(c) Frenkel defect
(d) all of these
4) Which of the following gives both Frenkel and Schottky defect?
(a) AgCl
(b) CsCl
(c) KCl
(d) AgBr
In an ideal crystal, there must be regular repeating arrangement of the constituting particles and its entropy must be zero at absolute zero temperature. However, it is impossible to obtain an ideal crystal and it suffers from certain defects called imperfections. In pure crystal, these defects arises either due to disorder or dislocation of the constituting particles from the normal positions or due to the movement of the particles even at absolute zero temperature. Such defects increase with rise in temperature. In addition to these certain defects arise due to the presence of some impurities. Such defects not only modify the existing properties of the crystalline solids but also impart certain new characteristics to them.
Answer the following MCQs by choosing the most appropriate options:
1) AgCl is crystallized from molten AgCl containing a little \(CdCl_2\). The solid obtained will have
(a) cationic vacancies equal to number of \(Cd^{2+}\) ions incorporated.
(b) cationic vacancies equal to double the number of \(Cd^{2+}\) ions.
(c) anionic vacancies.
(d) neither cationic nor anionic vacancies.
2) Lattice defect per \(10^{15}\) NaCl is 1. What is the number of lattice defects in a mole of NaCl?
(a) 6.02 × \(10^{23}\)
(b) 6.02 × \(10^8\)
(c) \(10^{14}\)
(d) None of these
3) The ionic substances in which the cation and anion are of almost similar size shows
(a) non-stoichiometric defect
(b) Schottky defect
(c) Frenkel defect
(d) all of these
4) Which of the following gives both Frenkel and Schottky defect?
(a) AgCl
(b) CsCl
(c) KCl
(d) AgBr
1) (a) cationic vacancies equal to number of \(Cd^{2+}\) ions incorporated.
2) (b) 6.02 × \(10^8\)
3) (b) Schottky defect
4) (d) AgBr
2) (b) 6.02 × \(10^8\)
3) (b) Schottky defect
4) (d) AgBr
Study the diagram given below and answer the following questions: [Assertion-Reason Type Questions]
[A] – Assertion & reason both statements are correct and reason is the correct explanation of assertion.
[B] – Assertion & reason both are the correct statements but reason is not the correct explanation of the assertion.
[C] – Assertion is correct statement and reason is incorrect statement.
[D] – Assertion is incorrect statement and reason is correct statement
1) Assertion (A): The diagram shows Schottky defect.
Reason (R): Schottky defect occurs in ionic solids.
2) Assertion (A): LiCl Crystal is pink.
Reason (R): Pink colour of LiCl crystal is due to excess Lithium.
3) Assertion (A): The crystal lattice density increases due to the
defect shown in the diagram.
Reason (R): Tetrahedral voids are surrounded by 4 constituent
particles.
4) Assertion (A): AgCl shows Frenkel defect while NaCl does not.
Reason (R): Frenkel defect is shown when anionic vacancies are
occupied by unpaired electrons.
Read the passage given below and answer the following questions:
All real structures are three-dimensional structures. They can be obtained by stacking two dimensional layers one above the other while placing the second square close packed layer above the first we follow the same rule that was followed when one row was placed adjacent to the other. The second layer is placed over the first layer such that the spheres of the upper layer are exactly above there of the first layer. In his arrangement spheres of both the layers are perfectly aligned horizontally as well as vertically. A metallic element crystallise into a lattice having a ABC ABC pattern and packing of spheres
leaves out voids in the lattice.
1) What type of structure is formed by this arrangement?
(A) ccp
(B) hcp
(C) ccp/fcc
(D) none of the above
2) Name the non-stoichiometric point defect responsible for colour in alkali metal halides.
(A) Frenkel defect
(B) Interstitial defect
(C) Schottky defect
(D) F-centres
3) What is the total volume of atoms in a face centred cubic unit cell of a metal? (r is atomic radius).
(A) 16/3 \(πr^3\)
(B) \(πr^3\)
(C) 24/3 \(πr^3\)
(D) 12/3 \(πr^3\)
4) Which of the following statements not true for the amorphous and crystalline solids?
(A) Amorphous solids are isotropic and crystalline solids are anisotropic.
(B) Amorphous solids are short range order and crystalline solids are long range order.
(C) Amorphous solids melt at characteristic temperature while crystalline solids melt over a range of temperature.
(D) Amorphous solids have irregular shape and crystalline solids have a geometrical shape.
Assertion: Na⁺ and Al³⁺ are isoelectronic but the magnitude of ionic radius of Al³⁺ is less than that of Na⁺
Reason: The magnitude of an effective nuclear charge on the outer shell electrons in Al³⁺ is greater than that of Na⁺.
[A] – Assertion & reason both statements are correct and reason is the correct explanation of assertion.
[B] – Assertion & reason both are the correct statements but reason is not the correct explanation of the assertion.
[C] – Assertion is correct statement and reason is incorrect statement.
[D] – Assertion is incorrect statement and reason is correct statement
Assertion (A): Crystalline solids are anisotropic in nature.
Reason (R): Some of their physical properties show same electrical and optical properties in different directions in the same crystal.
[A] – Assertion & reason both statements are correct and reason is the correct explanation of assertion.
[B] – Assertion & reason both are the correct statements but reason is not the correct explanation of the assertion.
[C] – Assertion is correct statement and reason is incorrect statement.
[D] – Assertion is incorrect statement and reason is correct statement
Assertion: In caesium chloride crystal, Cs⁺ is present on the centre of cube of the unit cell.
Reason: For N⁻ atoms adopting fcc arrangement, there are 2N tetrahedral voids.
[A] – Assertion & reason both statements are correct and reason is the correct explanation of assertion.
[B] – Assertion & reason both are the correct statements but reason is not the correct explanation of the assertion.
[C] – Assertion is correct statement and reason is incorrect statement.
[D] – Assertion is incorrect statement and reason is correct statement
Assertion (A): Amorphous solids possess a long range order in the arrangement of their particles.
Reason (R): The formation of amorphous solids involves very rapid cooling.
[A] – Assertion & reason both statements are correct and reason is the correct explanation of assertion.
[B] – Assertion & reason both are the correct statements but reason is not the correct explanation of the assertion.
[C] – Assertion is correct statement and reason is incorrect statement.
[D] – Assertion is incorrect statement and reason is correct statement
Assertion: White ZnO becomes yellow upon heating.
Reason: On heating ZnO loses oxygen and free electrons go into exited stated and upon returning imparts yellow radiation.
[A] – Assertion & reason both statements are correct and reason is the correct explanation of assertion.
[B] – Assertion & reason both are the correct statements but reason is not the correct explanation of the assertion.
[C] – Assertion is correct statement and reason is incorrect statement.
[D] – Assertion is incorrect statement and reason is correct statement
Read the passage given below and answer the following questions:
Alkyl halides are prepared by the free radical halogenation of alkanes, addition of halogen acids to alkenes, replacement of -OH group of alcohols with halogens using phosphorus halides, thionyl chloride or halogen acids. Aryl halides are prepared by electrophilic substitution to arene. Fluorine and iodides are best prepared by halogen exchange method. These compounds find wide applications in industry as well as in day-to-day life. These compounds are generally used as solvents and as starting material for the synthesis of a large number of organic compounds.
(i) The best method for the conversion of an alcohol into analkyl chloride is by treating the alcohol with
(a) \(PCl_5\)
(b) dry HCl in the presence of anhydrous \(ZnCl_2\)
(c) \(SOCl_2\) in presence of pyridine
(d) None of these
(ii) The catalyst used in the preparation of an alkyl chloride bythe action of dry HCl on an alcohol is
(a) anhydrous \(AlCl_3\)
(b) \(FeCl_3\)
(c) anhydrous \(ZnCl_2\)
(d) Cu
(iii) An alkyl halide reacts with metallic sodium in dry ether. The reaction is known as :
(a) Frankland’sreaction
(b) Sandmeyer’sreaction
(c) Wurtz reaction
(d) Kolbe’s reaction
(iv) Fluorobenzene (\(C_6\)\(H_5\)F) can be synthesized in the laboratory
(a) by direct fluorination of benzene with \(F_2\) gas
(b) by reacting bromobenzene with NaF solution
(c) by heating phenol with HF and KF
(d) from aniline by diazotisation followed by heating thediazonium salt with \(HBF_4\)
(v) When 2-bromobutane reacts with alcoholic KOH, thereaction is called
(a) halogenation
(b) chlorination
(c) hydrogenation
(d) dehydrohalogenation
Read the passage given below and answer the following questions:
When a protein in its native form, is subjected to physical changes like change in temperature or chemical changes like change in pH, the hydrogen bonds are disturbed. Due to this, globules unfold and helix get uncoiled and protein loses its biological activity. This is called denaturation of protein.
The denaturation causes change in secondary ann tertiary structures but primary structures remain intact. Examples of denaturation of protein are coagulation of egg white on boiling, curdling of milk, formation of cheese when an acid is added to milk.
Choose the most appropriate answer:
i) Mark the wrong statement about denaturation of proteins.
a) The primary structure of the protein does not change.
b) Globular proteins are converted into fibrous proteins.
c) Fibrous proteins are converted into globular proteins.
d) The biological activity of the protein is destroyed.
ii) Which structure{s) of proteins remains(s) intact during denaturation process?
(a) Both secondary and tertiary structures
(b) Primary structure only
(c) Secondary structure only
(d) Tertiary structure only
iii) a-helix a n d β - pleated structures of proteins are classified as
(a) primary structure
(b) secondary structure
(c) tertiary structure
(d) quaternary structure.
(iv) Secondary structure of protein refers to
a) mainly denatured proteins and structure of prosthetic groups.
b) three-dimensional structure, especially the bend between. amino acid residues that are distant from each other in the polypeptide chain.
c) linear sequence of amino acid residues in the polypeptide chain.
d) regular folding patterns of continuous portions of the polypeptide chain.
The properties of dilute or ideal solutions which depend only upon the concentration of the solute in the solution and no other characteristics are known as colligative properties. There are in all four such properties i.e. relative lowering in vapour pressure, osmotic pressure, elevation in boiling point temperature and depression in freezing point temperature. All of them help in calculating the observed molar mass of the solute which is inversely proportional to the colligative property involved. Out of these, osmotic pressure may be regarded as the best for the determination of molecular mass of the solute. According to Van’t Hoff theory of dilute solution, π = CRT, where ‘π’ is the osmotic pressure while ‘C’ is the molar concentration of the solution.
(i) When liquids A and B are mixed, hydrogen bonding occurs. The solutions will show:
a) Positive deviation from Raoult’s law
b) Negative deviation from Raoult’s law
c) No deviation from Raoult’s law
d) Slightly increase in volume
(ii) The azeotropic mixture of water and HCl boils at \(108.5^\circ\)C when the mixture is distilled. It is possible to obtain:
a) Pure HCl
b) Pure water
c) Pure water as well as pure HCl
d) Neither HCl nor water in their pure states.
(iii) On freezing an aqueous solution of sugar, the solid which starts separating out is:
a. Sugar
b. Ice
c. Solution with the same composition
d. Solution with different composition
(iv) The value of osmotic pressure does not depend upon:
a) Concentration of the solution
b) Temperature of the solution
c) Number of the particles of the solute present
d) Structure of the solute particles
(v) Effect of adding a non-volatile solute to a solvent is :
a) to lower the vapour pressure
b) to increase the freezing point
c) to decrease the boiling point
d) to decrease the osmotic pressure
Read the passage given below and answer the following questions:
In an ideal crystal, there must be regular repeating arrangement of the constituting particles and its entropy must be zero at absolute zero temperature. However, it is impossible to obtain an ideal crystal and it suffers from certain defects called imperfections. In pure crystal, these defects arises either due to disorder or dislocation of the constituting particles from the normal positions or due to the movement of the particles even at absolute zero temperature. Such defects increase with rise in temperature. In addition to these certain defects arise due to the presence of some impurities. Such defects not only modify the existing properties of the crystalline solids but also impart certain new characteristics to them.
Answer the following MCQs by choosing the most appropriate options:
1) AgCl is crystallized from molten AgCl containing a little \(CdCl_2\). The solid obtained will have
(a) cationic vacancies equal to number of \(Cd^{2+}\) ions incorporated.
(b) cationic vacancies equal to double the number of \(Cd^{2+}\) ions.
(c) anionic vacancies.
(d) neither cationic nor anionic vacancies.
2) Lattice defect per \(10^{15}\) NaCl is 1. What is the number of lattice defects in a mole of NaCl?
(a) 6.02 × \(10^{23}\)
(b) 6.02 × \(10^8\)
(c) \(10^{14}\)
(d) None of these
3) The ionic substances in which the cation and anion are of almost similar size shows
(a) non-stoichiometric defect
(b) Schottky defect
(c) Frenkel defect
(d) all of these
4) Which of the following gives both Frenkel and Schottky defect?
(a) AgCl
(b) CsCl
(c) KCl
(d) AgBr
An organic compound A having molecular formula \(C_6\)\(H_6\)O turn blue litmus solution into red but does not react with sodium bicarbonate, but when treated with bromine water then form a white ppt of compound B. when compound A react with chloroform in presence of aqueous caustic soda solution at 340K then form two compound C and D. When compound A treated with caustic soda then form compound E compound E when treated with methyl halide then form compound F.
Read the above passage carefully and answer the following questions:
(i) The name of compound is:
(a) 2-methyl propene-2-ol
(b) 2-methyl phenol
(c) 2,4,6-tribromophenol
(d) Butane 1-ol
(ii) Which are isomers of each other
(a) A and C
(b) B and C
(c) C and D
(d) D and E
(iii) The IUPAC name of compound F is
(a) Anisole
(b) Methoxybenzene
(c) Salicylaldehyde
(d) 2-methyl propene-2-ol
(iv) When compound E treated with ethyl iodide then ...... form.
(a) Ehoxybenzene
(b) Ethoxy hexane
(c) Propoxypropane
(d) Benzaldehyde
(v) On oxidation with sodium dichromate and conc \(H_2\)\(SO_4\) phenol gives
(a) Benzaldehyde
(b) p-Benzoquinone
(c) o-Benzoquinone
(d) m-benzoquinone
Group 18 elements are called noble gases and not inert gases because compounds of Kr, Xe and Rn have been prepared. Their general electronic configuration is \(ns^2\)\(np^6\) except He(\(1s^2\) ). They have highest ionisation enthalpy and positive electron gain enthalpy due to stable electronic configuration. Helium is found in sun and stars. Noble gases have low boiling points due to weak van der Waals’ forces of attraction. Xenon forms \(XeF_2\), \(XeF_4\), \(XeF_6\), \(XeOF_4\), \(XeO_3\), \(XeO_2\)\(F_2\), their structures can be drawn on bases of VSEPR theory. Helium is mixed with oxygen by deep sea divers to avoid pain. Neon is used in coloured advertising lights. Argon is used in bulbs as inert gas. Kr and Xe are used in high efficiency lamps, head light of cars. Radon is radioactive formed by a-decay of Radium 226 88Ra Argon is most abundant (0.9%) noble gas in atmosphere.
The following questions are multiple choice questions. Choose the most appropriate answer.
1) What are the elements in group 18 (the far right) of the periodic table called?
a) Alkali metals
b) Alkaline earth metals
c) Halogens
d) Noble gases
2) Out of (i) \(XeO_3\) (ii) \(XeOF_4\) and (iii) \(XeF_6\) , the molecules having the same number of lone pairs on Xe are -
a) (i) and (ii) only
b) (i) and (iii) only
c) (ii) and (iii) only
d) (i) , (ii) and (iii)
3) Which one has linear shape?
a) \(XeF_2\)
b) \(XeF_4\)
c) \(XeF_6\)
d) \(XeO_3\)
4) Which of the outer electronic configuration represent Argon?
a) \(ns^2\)\(np^4\)
b) \(ns^2\)\(np^3\)
c) \(ns^2\)\(np^6\)
d) \(ns^1\)\(np^6\)
5) Which of the following statement is false?
a) Radon is obtained from the decay of radium
b) Helium is an inert gas
c) Xenon is the most reactive among the rare gases
d) The most abundant rare gas found in the atmosphere is helium
Proteins are high molecular mass complex biomolecules of amino acid The important proteins required for our body are enzymes, hormones, antibodies, transport proteins, structural proteins, contractile proteins etc. Except for glycine, all o-amino acids have chiral carbon atom and most of them have L-configuration. The amino acids exists as dipolar ion called zwitter ion, in which a proton goes from the carboxyl group to the amino group. A large number of-amino acids are joined by peptide bonds forming polypeptides. The peptides having very large molecular mass (more than 10,000) are called proteins. The structure of proteins is described as primary structure giving sequence of linking of amino acids; secondary structure giving manner in which polypeptide chains are arranged and folded; tertiary structure giving folding, coiling or bonding polypeptide chains producing three dimensional structures and quaternary structure giving arrangement of sub- units in an aggregate protein molecule.
In these questions (Q. No. i-iv), a statement of assertion followed by a statement of reason is given.
Choose the correct answer out of the following choices.
a) Assertion and reason both are correct statements and reason is correct explanation for assertion.
b) Assertion and reason both are correct statements but reason is not correct explanation for assertion.
c) Assertion is correct statement but reason is wrong statement.
d) Assertion is wrong statement but reason is correct statement.
i) Assertion .- All amino acids are optimally active.
Reason : Amino acids contain asymmetric carbon atoms.
ii) Assertion .- In o-helix structure, intramolecular H-bonding takes place whereas in β-pleated structure,intermolecular H-bonding takes place.
Reason : An egg contains a soluble globular protein called albumin which is present in the white part.
iii) Assertion .- Secondary structure of protein refers to regular folding patterns of continuous portions of the polypeptide chain
Reason : Out of 20 amino acids, only 12 amino acids can be synthesized by human body.
iv) Assertion .- The. helical structure of protein is stabilized by intramolecular hydrogen bond between —NH and carbonyl oxygen.
Reason : Sanger’s reagent is used for the identification of N-terminal amino acid of peptide chain.