Advertisements
Advertisements
Question
Match the defects given in Column I with the statements in given Column II.
| Column I | Column II |
| (i) Simple vacancy defect | (a) shown by non-ionic solids and increases density of the solid. |
| (ii) Simple interstitial defect | (b) shown by ionic solids and decreases density of the solid. |
| (iii) Frenkel defect | (c) shown by non ionic solids and density of the solid decreases. |
| (iv) Schottky defect | (d) shown by ionic solids and density of the solid remains the same. |
Solution
| Column I | Column II |
| (i) Simple vacancy defect | (c) shown by non ionic solids and density of the solid decreases. |
| (ii) Simple interstitial defect | (a) shown by non-ionic solids and increases density of the solid. |
| (iii) Frenkel defect | (d) shown by ionic solids and density of the solid remains the same. |
| (iv) Schottky defect | (b) shown by ionic solids and decreases density of the solid. |
APPEARS IN
RELATED QUESTIONS
Explain the following terms with suitable examples : Interstitials
Answer the following question.
What type of stoichiometric defect is shown by ZnS and why?
Defect shown by non-ionic solids is ____________.
Defects in solids can be studied using
Type of stoichiometric defect shown by ZnS is ____________.
Type of stoichiometric defect shown by AgBr is ____________.
Alkali halids do not show Frenkel defect because ____________.
Which of the following point defects are shown by AgBr(s) crystals?
- Schottky defect
- Frenkel defect
- Metal excess defect
- Metal deficiency defect
Frenkel defect is also known as:
(i) stoichiometric defect
(ii) dislocation defect
(iii) impurity defect
(iv) non-stoichiometric defect
Given below are two statements:
Statements I: Frenkel defects are vacancy as well as interstitial defects.
Statements II: Frenkel defect leads of colour in ionic solids due to the presence of F-centers.
Choose the most appropriate answer for the statements from the options given below:
