MHT CET · Chemistry · Solid State
Which among the following solids shows Frenkel defect?
- A
- B
- C
- D
Answer & Solution
Correct Answer
(D)
Step-by-step Solution
Detailed explanation
Frenkel defects are shown by those ionic solids which have low value of ionic radius and also have low coordination number of ions.
See the Complete Solution
Get step-by-step explanations for this and 2.5 Lakh+ more JEE, NEET & CET questions.
- Unlock all solutions
- Practice the full chapter
- Track accuracy across PYQs
4.8 rated on Google Play · 14,000+ reviews
More questions from Chemistry
- What is change in internal energy when system releases \(8 \mathrm{~kJ}\) of heat and performs \(660 \mathrm{~J}\) of work on the surrounding?MHT CET 2023 Easy
- Which among the following is an example of 2-dimensional nanostructure?MHT CET 2022 Easy
- Calculate the change in internal energy of the system if 25 kJ of work done by the system and it absorbs 10 kJ of heat.MHT CET 2025 Easy
- Which amino acid from following is NOT synthesized in our body?MHT CET 2025 Easy
- Which of the following methods is used to prepare dihydrogen with purity greater than 99.95 ?MHT CET 2025 Easy
- The IUPAC name of \(\mathrm{CH}_{3}-\mathrm{CH}_{2}-\mathrm{O}-\mathrm{CH}_{2}-\mathrm{CH}\left(\mathrm{CH}_{3}\right)_{2}\) isMHT CET 2020 Easy
More PYQs from MHT CET
- A pulse of a wave train travels along a stretched string and reaches the fixed end of the string. It will be reflected back withMHT CET 2007 Medium
- Which one of the following blood cells produce antibodies as immune response of the body?MHT CET 2019 Easy
- The escape velocity of a body from any planet whose mass is six times the mass of earth and radius is twice the radius of earth will be
\(\left(\mathrm{V}_{e}=\right.\) escape velocity of a body from the earth's surface)MHT CET 2020 Medium - Find the ODD one out, with respect to X-linkage.MHT CET 2015 Easy
- Two loops ' \(A\) ' and ' \(B\) ' of radii ' \(R_1\) ' and ' \(R_2\) ' are made from uniform wire. If moment of inertia of ' \(A\) ' is ' \(I_A\) ' and that ' \(B\) ' is ' \(\mathrm{B}_{\mathrm{B}}\) ', then \(R_2 / R_1\) is \(\left[\frac{I_A}{I_B}=27\right]\)MHT CET 2024 Medium
- The mass of earth is 81 times the mass of the moon and the distance between their centres is \(\mathrm{R}\). The distance from the centre of the earth where gravitational force will be zero isMHT CET 2020 Easy