Match the following:
$\begin{matrix} C o l u m n I & C o l u m n I I (1) I^{2} & (i) I o n i c s o l i d (2) C u & b (i i) C o v a l e n t s o l i d (3) D i a m o n d & (i i i) M o l e c u l a r s o l i d (4) Z n S & (i v) M e t a l l i c s o l i d \end{matrix}$

(1)-(ii), (2)-(iv), (3)-(i), (4)-(iii)

No worries! We‘ve got your back. Try BYJU‘S free classes today!

(1)-(iii), (2)-(iv), (3)-(ii), (4)-(i)

Right on! Give the BNAT exam to get a 100% scholarship for BYJUS courses

(1)-(iii), (2)-(ii), (3)-(iv), (4)-(i)

No worries! We‘ve got your back. Try BYJU‘S free classes today!

(1)-(iv), (2)-(iii), (3)-(ii), (4)-(i)

No worries! We‘ve got your back. Try BYJU‘S free classes today!

Open in App

Solution

The correct option is B
(1)-(iii), (2)-(iv), (3)-(ii), (4)-(i)

We know the all the types of solids.

Don’t we??

Let’s refresh our definitions first.

Molecular solids $\to$ In these solids, the constituent particles are molecules.

Metallic solids $\to$ In such solids, the constituent particles are orderly arranged positively charged metal ions (called kernels) surrounded by a sea of free electrons. These electrons are mobile and are evenly spread out throughout the crystal and flow throughout the metal crystal such as water in the sea. These are produced from metal atoms having low ionization energy and can easily lose their valence electrons to leave behind positively charged ions (kernels). Each metal atom contributes one or more electrons towards this sea of mobile electrons. Hence, it is called electrons sea model.

Ionic Solids $\to$ In ionic solids, the constituent particles are positive and negative ions. Such solids are formed by the three-dimensional arrangement of positive (cations) and negative (anions) ions held by strong electrostatic (coulombic) force of attraction.

Covalent solid $\to$ In covalent solids, the constituent particles are non-metal atoms linked to the adjacent atoms by covalent bonds throughout the crystal. As a result, a network of covalent bond is formed. Hence, they form giant molecules.

I $_{2}$ $\to$ Here the constituent particles are I $_{2}$ molecules which are held together by weak dispersion forces.

Cu $\to$ Metallic Bonding

Diamond $\to$ Giant covalent network of carbon(network/covalent solid)

ZnS $\to$ constituent particles will be Zn $^{2 +}$ and S $^{2 -}$

Therefore ionic.

Suggest Corrections

Similar questions

Match the following:

(1) I $_{2}$ (i) Ionic solid

(2) Cu (ii) Covalent solid

(3) Diamond (iii) Molecular solid

(4) ZnS (iv) Metallic solid

Q. Match the following:

$\begin{matrix} C o l u m n I & C o l u m n I I (1) H C l & (i) P o l a r M o l e c u l a r s o l i d (2) I c e & (i i) N o n - p o l a r M o l e c u l a r s o l i d (3) C C l_{4} & (i i i) H - b o n d e d M o l e c u l a r s o l i d \end{matrix}$

Match the following:

$\begin{matrix} C o l u m n I & C o l u m n I I (1) . N o n - p o l a r M o l e c u l a r s o l i d s & (i) C o u l o m b i c o r e l e c t r o s t a t i c f o r c e s (2) . H - B o n d e d M o l e c u l a r s o l i d s & (i i) . H - b o n d i n g (3) . I o n i c s o l i d s & (i i i) . M e t a l l i c b o n d i n g (4) . W e a k d i s p e r s i o n f o r c e s & (i v) . W e a k d i s p e r s i o n f o r c e s (5) . M e t a l l i c s o l i d s & (v) . d i p o l e - d i p o l e i n t e r a c t i o n . (v i) . c o v a l e n t B o n d i n g . \end{matrix}$

Match the following:

Match the following

1. $P C l_{3}$ (i). 2 lone pairs (I) 5 Ligands

2. $C l F_{3}$ (ii). 3 lone pair (II) 3 Ligands

3. $X e F_{6}$ (iii). 0 lone pair (III) 6 Ligands

4. $S b C l_{5}$ (iv). 1 lone pairs (IV) 4 Ligands

Join BYJU'S Learning Program

Match the following: Column IColumn II(1)I2(i) Ionic solid(2)Cub(ii) Covalent solid(3) Diamond(iii) Molecular solid(4) ZnS(iv) Metallic solid

Match the following:
$\begin{matrix} C o l u m n I & C o l u m n I I (1) I^{2} & (i) I o n i c s o l i d (2) C u & b (i i) C o v a l e n t s o l i d (3) D i a m o n d & (i i i) M o l e c u l a r s o l i d (4) Z n S & (i v) M e t a l l i c s o l i d \end{matrix}$