Using the VSEPR model, the shape of \( \text{PCl}_4^+ \) ion is:
Show Hint
- Tetrahedral
- Square planar
- Trigonal pyramidal
- Bent
The Correct Option is A
Solution and Explanation
Step 1: VSEPR Theory.
The VSEPR (Valence Shell Electron Pair Repulsion) model helps predict the geometry of molecules based on the repulsion between electron pairs. The shape of a molecule depends on the number of bonding pairs and lone pairs around the central atom.
Step 2: Analyzing \( \text{PCl}_4^+ \).
For the \( \text{PCl}_4^+ \) ion:
- The central atom is phosphorus (P).
- It is surrounded by 4 chlorine atoms, forming 4 bonding pairs of electrons.
- The charge on the ion is \( +1 \), which means there is one fewer electron than the neutral molecule, so there are no lone pairs on the phosphorus atom.
Therefore, with 4 bonding pairs and no lone pairs, the shape is tetrahedral according to VSEPR theory.
Step 3: Conclusion.
Thus, the correct shape of the \( \text{PCl}_4^+ \) ion is tetrahedral, corresponding to option (1).
Top Questions on Chemical bonding and molecular structure
- On descending the alkali metal group, the lattice enthalpies of both the oxide and peroxide (or superoxide) decreased, because:
- CUET (PG) - 2025
- Chemistry
- Chemical bonding and molecular structure
- Arrange the following in increasing order of covalent character: (A) LiF
(B) LiBr
(C) LiCl
(D) LiI- CUET (PG) - 2025
- Chemistry
- Chemical bonding and molecular structure
- Match the molecule/ion (List-I) with their number of bond pair (BP) and lone pair (LP) on the central metal atom (List-II). \[\begin{array}{|l|l|} \hline \textbf{List-I} & \textbf{List-II} \\ \hline \textbf{Molecule/ion} & \textbf{BP/LP on central metal atom} \\ \hline \text{(A) SO$_2$} & \text{(I) BP = 4 and LP = 2} \\ \hline \text{(B) ClF$_3$} & \text{(II) BP = 5 and LP = 1} \\ \hline \text{(C) BrF$_5$} & \text{(III) BP = 2 and LP = 1} \\ \hline \text{(D) XeF$_4$} & \text{(IV) BP = 3 and LP = 2} \\ \hline \end{array}\]
- CUET (PG) - 2025
- Chemistry
- Chemical bonding and molecular structure
Match the LIST-I with LIST-II
LIST-I (Bonds) LIST-II (Formations) A. Ionic Bonds Actual transfer of electrons from one atom to another atom B. Metallic Bonds Partial sharing of valence electrons by the neighboring atoms C. Van der Waals Bonds This type of bonding arises from dipolar interaction of crystals/molecules of the crystal. D. Hydrogen Bonds This type of interaction between the oppositely charged ends of permanently polarized molecules.
Choose the correct answer from the options given below:- CUET (PG) - 2025
- Material Science and Technology
- Chemical bonding and molecular structure
- The potential energy of a system of two atoms is given by the expression \( U = -A/r^2 + B/r^{10} \). A stable molecule is formed with the release of 8.0 eV of energy, when the interatomic distance is 2.8 Å. The values of A and B are:
- CUET (PG) - 2025
- Material Science and Technology
- Chemical bonding and molecular structure
Questions Asked in CUET PG exam
- A rectangular section has width $b$ and depth $d$ and a symmetrical triangular section has base $b$ and depth $d$. The ratio of moment of inertia of rectangular section to that of triangular section with respect to their respective centroidal axis will be:
- CUET (PG) - 2025
- Strength of Materials
A weight of $500\,$N is held on a smooth plane inclined at $30^\circ$ to the horizontal by a force $P$ acting at $30^\circ$ to the inclined plane as shown. Then the value of force $P$ is:
- CUET (PG) - 2025
- Engineering Mechanics
A steel wire of $20$ mm diameter is bent into a circular shape of $10$ m radius. If modulus of elasticity of wire is $2\times10^{5}\ \text{N/mm}^2$, then the maximum bending stress induced in wire is:
- CUET (PG) - 2025
- Strength of Materials
- Shape of the "shear force diagram" for a simply supported beam subjected to pure moment $M$ at the center of span, will be:
- CUET (PG) - 2025
- Strength of Materials
- Which of the following statements is correct?
- CUET (PG) - 2025
- Strength of Materials