Tag: covalent bond

Questions Related to covalent bond

The electronic configuration of elements A, B, C, D and E are :
A (2, 8, 7)       B (2, 8, 1)       C (2)          D (2, 6)        E(2, 8)
If elements A & B combine to form a compound then its chemical formula would be _______ .

chemistry chemical bond and chemical equation properties of covalent compounds types of bonds and properties covalent bond

  1. $BA$

  2. $B _2A$

  3. $2BA$

  4. $BA _2$

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Correct Option: A
Explanation:

In the above question element A is equivalent to chlorine& B to sodium thus the structure besides shows the bonding giving rise to $NaCl$ Hence for our eg, it is $BA$.

Covalent compounds are generally _________ in water.

chemistry chemical bond and chemical equation properties of covalent compounds types of bonds and properties covalent bond

  1. soluble

  2. insoluble

  3. ionized

  4. hydrolysed

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Correct Option: B
Explanation:

Ionic compounds are soluble in water whereas covalent compounds are insoluble in water.

Maximum number of bonds between two atoms of a covalent bond can be:

chemistry chemical bond and chemical equation properties of covalent compounds types of bonds and properties covalent bond

  1. four

  2. three

  3. two

  4. one

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Correct Option: B
Explanation:

Covalent bonds between atoms are quite strong, but attractions between molecule/compounds  or intermolecular forces, can be relatively weak. Covalent compounds generally have low boiling and melting points, and are found in all three physical states covalent bonds between atoms are quite strong, but attractions between molecules/compounds or intermolecular forces, can be relatively work. Covalent compounds generally have low boiling and melting points, and are found in all three physical states at room temperature. at room temperature.

Two compounds of A and B have similar formula $AX _3$ and $BX _3$ respectively. But, the compound of A has the dipole moment and dipole moment of the compound of B is zero. Which of the following statements is true regarding compounds of A & B?

chemistry chemical bond and chemical equation properties of covalent compounds types of bonds and properties covalent bond

  1. A and B are iso structural.

  2. A may have lone pair on central atom whereas B has no lone pair.

  3. A and B differ wrt type of hybridisation of central atom.

  4. All the above.

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Correct Option: C
Explanation:

A and B differ wrt type of hybridization of central atom. 'B' may have lone pair on central atom whereas 'A' has no lone pair.
'A' has dipole moment as it is trigonal planar in which individual bond dipoles cancel each other and dipole moment of 'B' is zero as it has pyramidal geometry in which individual bond dipoles do not cancel each other. 

Assertion : $CH _3Cl$ is a polar molecule.
Reason : The Lewis diagram of polar molecules always has at least one lone pair of electrons.

chemistry chemical bond and chemical equation properties of covalent compounds types of bonds and properties covalent bond

  1. Assertion and Reason  are correct and Reason  is the correct explanation of Assertion 

  2. Both the Assertion and Reason are correct and Reason  is not the correct explanation of Assertion 

  3. Assertion is correct but Reason is not correct

  4. Assertion is not correct but Reason is correct

  5. Both the Assertion and Reason are not correct

Show answer
Correct Option: C
Explanation:

Compound in statement 1 must be $C{ H } _{ 3 }Cl$.Since carbon,hydrogen and chlorine have different electronegativity,the bonds are polar in nature. Moreover, there is symmetry in the structure of the molecule, so there is a net dipole moment hence it is a polar molecule.

It is not a necessary condition that there has to at least one lone pair of electrons for a molecule to be polar. $C{ H } _{ 3 }Cl$ is an example.

Which of the following statements is/are true?

chemistry chemical bond and chemical equation properties of covalent compounds types of bonds and properties covalent bond

  1. Covalent bonds are directional.

  2. Ionic bonds are non-directional.

  3. A polar bond is formed between two atoms which have the same electronegativity value.

  4. The presence of polar bonds in a polyatomic molecule suggests that it has zero dipole moment.

Show answer
Correct Option: A,B
Explanation:

Covalent bonds are directional and ionic bonds are nondirectional. A polar bond is formed between two atoms which have different electronegativity value. The presence of polar bonds in a polyatomic molecule suggests that mostly it has non-zero dipole moment.

$A,\ B,\ C$ are three substances. $A$ does not conduct electricity in the solid, molten state and aqueous solution. $B$ conducts electricity both in the fused and aqueous states, while $C$ conducts electricity only in the aqueous state. In solid state neither $B$ nor $C$ conducts electricity. Which of the following statements is/are true regarding $A,\ B$ and $C $?

chemistry chemical bond and chemical equation properties of covalent compounds types of bonds and properties covalent bond

  1. $A$ has polar covalent linkage

  2. $A$ has non-polar covalent linkage

  3. $B$ is ionic in nature

  4. Cation has polar covalent bonds

Show answer
Correct Option: B,C,D
Explanation:
$A$ does not conduct electricity in the solid and molten state suggests that $A$ is not an ionic compound and it can be a covalent compound.
$A$ is not conducting electricity in aqueous solution also, it suggests that all the element in compound $A$ has the same electronegativity.
Hence, $A$ can be non-polar covalent compound that means it has non-polar covalent linkage.
$B$ conducts electricity in a fused state and in aqueous states, This represents that the electronegativity difference in the compound is very high.
Hence, $B$ can be an ionic bond
$C$ conducts electricity in only in the aqueous state. It means that $C$ does not conduct electricity in a molten state that means $C$ is not an ionic compound.
It can be a covalent compound and as it is conducting electricity in the aqueous state, there must be small electronegativity difference.
Hence, $C$ can be a polar covalent compound.