a. If both assertion and reason are true and the reason is the correct explanation of the assertion b. If both assertion and reason are true but reason is not the correct explanation of the assertion c. If assertion is …
a. If both assertion and reason are true and the reason is the correct explanation of the assertion b. If both assertion and reason are true but reason is not the correct explanation of the assertion c. If assertion …
a. If both assertion and reason are true and the reason is the correct explanation of the assertion b. If both assertion and reason are true but reason is not the correct explanation of the assertion c. If assertion is …
a. They are chemically reactive b. They have metallic conductive c. They are very hard d. They have high melting points Ans. a Explanation : Interstitial compound are almost inert so (a) is wrong statement (8)
a. Tridymite b. Amorphous silica c. Quartz d. Mica Ans. c Explanation : piezoelectric material are those that produce an electric current when they are placed under mechanical strees. (4)
a. Frenkel defect b. Metal deficiency defect c. Schottky defect d. Vacancy defect Ans. a Explanation : frenkel defect (10)
a. Creation of equal number of cation and anion vacancies b. Creation of unequal number of cation and anion vacancies c. Migration of cations to interstitial voids d. Migration of anions to interstitial voids Ans. a Explanation : In schottky …
M0.98 O. Metal M, present as M and M+2 in its oxide. Fraction of the metal which exists as M +3 would be a. 7.01% b. 4.08% c. 6.05 % d. 5. 08% Ans. b (32)
a. Non- stoichiometric defects b. Shottky defects c. Frenkel defects d. all the above Ans. b (28)
10-4 mol % of SrCl2 the concentration of cation vacancies will be a. 6.02 x 1015 mol -1 b. 6.02 x 1016 mol -1 c. 6.02 x 1017 mol -1 d. 6.02 x 1014 mol -1 Ans. c (7)
a. Selenium b. Boron c. Germanium d. Arsenic Ans. b Explanation : Boron can easily form positive ion. When silicon is doped with boron, it creates a positive hole and the substance are called p type semicondutor. (5)
a. Ferroelectric effect b. Pyrelectric effect c. Antiferroelectric effect d. piezoelectric effect Ans. b Explanation : pyroelectircity : It is the electricity produced when some polar crystals are heated (6)
a. Positive b. Neutral c. Negative d. Depends on concentration of p impurity Ans. b (4)
a. Frenkel defect b. Sohottky defect c. Intersitital defects d. F- centre Ans. d Explanation : When electorns are trapped in anion vacancies these are called F centres (8)
a. F centre b. Frenkel c. Sohottky d. Interstital Ans. c Explanation : During the schottkky defects same number of cations and anions are missing from their lattice site so density is decreased. (9)
a. Schotky defect b. Frenkel defect c. Stoichiometric defect d. F- centres Ans. d Explanation : F- centres are the sites where anions are missing and instead electrons are present they are responsible for colour. (6)
a. Frenkel defect b. Interstitial positions c. F- centres d. Schottky defects Ans. c (6)
a. Interstitial defect b. Valency defect c. Frenkel defect d. Schottky defect Ans. c (8)
a. Nucleus defects b. Non-crystal defects c. Crystal defects d. None of these Ans. c Explanation : Both are stoichiometric crystalline defects (6)
a. Increases b. decreases c. Does not change d. Changes Ans. c Explanation : Since no ions are missing from the crystal as s whole, there is no effect on density (28)
a. Schottky defects have no effect on the density of crystalline solids b. Frenkel defects decrease the density of crystalline solids c. Frenkel defect is a dislocation defect d. Frenkel defect is found in halides of alkaline metals. Ans. c …
a. Electron are held in the voids of crystals b. F- centre produces colour to the crystal c. Conductivity of the crystal increases due to F- centre d. All of the above Ans.d Explanation : All the given statements are …
a. A 2 BO4 b. A 2 B 2 O c. A B2 O4 d. A 4 B2 O Ans. c (36)
A2 B 2 has the hcp lattice. Which atom forms the hcp lattice and what fraction of tetrahedral voids is occupied by the other atoms: a. hcp lattice – A, 2/3 Tetrahedral voids B b. hcp lattice – B, 1/3 Tetrahedral …
O2- ions where half the octahedral voids are occupied by Al 3+ and one eight of the tetrahedeal voids are occupied by Mn2+ . The chemical formula of the mineral is. a. Mn3 Al 2 O 6 b. Mn Al 2 O 4 c. …
a. 2 b. 4 c. 6 d. 8 Ans. d (11)
a. NaCl structure b. Fe2 O3 structure c. CaF2 structure d. Na2 O structure Ans. a (26)
a. 6, 6 b. 8, 4 c. 4, 4 d. 4, 8 Ans. b (6)
a. Coordination number ( 4 : 4); ccp; Zn++ ion in the alternate tetrahedral voids b. Coordination number ( 6 : 6); hcp; Zn++ ion in the alternate tetrahedral voids c. Coordination number ( 6 : 4); hcp; Zn++ ion …
Na + and Cl – ions is sodium chloride crystal is X pm, the length of the edge of the unit cell is a. 4X pm b.X/4 pm c. X/2 pm d. 2X pm Ans. d (7)
a. Increase b. Decrease c. Remain the same d. Either (b) or (c) Ans. a (11)
a. 241. 5 pm b. 165. 7 pm c. 275.1 pm d. 322. 5 pm Ans. a (10)
Na+ and Cl– ions are 95 pm and 181 pm respectively. The edge legth of NaCl unit cell is a. 276 pm b. 138 pm c. 552 pm d. 415 pm Ans. c (14)
a. Twelve b. Four c. Eight d. Six Ans. a Explanation : Coordination number in hcp and ccp arrangement is 12 while in bcc arrangement is 8. (7)
a. NaCl type b. CsCl type c. ZnS type d. None of these Ans. b Explanation : Radius ration range 0.732- 0.99 signifies coordination number 8. In CsCl coordination number ration is 8:8 (8)
a. AB6 b. AB4 c. AB8 d. AB24 Ans. b (53)
a. a b. a/2 c. √3a/2 d. 2a/√3 Ans. c Explanation : As CsCl is body-centred d = √3a/2 (13)