Why does H−M−H bond angle in the hydrides of group 16 elements decrease on going down the group? - Chemistry (Theory)

Why does \[\ce{H - M - H}\] bond angle in the hydrides of group 16 elements decrease on going down the group?

Very Long Answer

The central atom size increases as we go down the group (from O to Te).
Electronegativity of the central atom decreases down the group.
Oxygen, being the most electronegative, holds electron density tightly, causing strong repulsion between lone pairs and bond pairs in (H₂O).
This strong electron pair repulsion in (H₂O) results in the largest bond angle (~104.5°).
With larger atom size and lower electronegativity down the group, electron density on the central atom decreases.
Reduced lone pair-bond pair repulsion leads to smaller bond angles in (H₂S), (H₂Se), and (H₂Te).
Hence, the \[\ce{(H - M - H)}\] bond angle decreases down the group from 104.5° to about 90°.

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Chapter 7: p-Block Elements - SHORT ANSWER TYPE QUESTIONS [Page 448]

Chapter 7 p-Block Elements
SHORT ANSWER TYPE QUESTIONS | Q 43. | Page 448