Q. One of the oxides below, that is covalently bonded is

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Q. The molecular structure that is a giant ionic compound is

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Q. Molecular structure that is not giant ionic compound is

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Q. Repulsion in electron pairs occurs until the

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Q. Lone pair of electrons in ammonia is

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Q. The bond angles in ammonia NH₃ are

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Q. The molecular structure of an ammonia molecule is

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Q. Lone pairs in Sulphur hexafluoride are

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Q. Lone pair of electrons (e⁻) in water are

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Q. Shape and bond angles is not dependent upon

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Q. The complete transfer of one or more electrons between atoms constitutes informing

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Q. The weak forces between molecules are called

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Q. A covalent bond is the sharing of

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Q. Ionic and covalent bonds requires a lot of energy to break them because they are very

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Q. According to Collision theory, the particles must

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Q. The bond created by overlapping of one modified orbit on another orbit is known as

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Q. When a single atom provides both electrons which are needed for completion of a covalent bond, lead to

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Q. A covalently bond molecule's shape and bond angles rely a on number of

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Q. The dative covalent bond is found in

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Q. In a molecule of chlorine trifluoride, ClF₃ the bond angle is

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