Question

What is a triple bond made of

Answer 1

The tripal bond is made up of 1. sigma bond 2.pi bond .

noticed that each are carbon atoms to two other atoms.

each of those carbon atoms fromed two sigma bonds using by hybrid orbitals .

hope this will helps u...

Answer 2

A triple bond made of two atoms shares three pairs of electrons.

Triple bond:

• In chemistry, a triple bond is a covalent single bond between two atoms that involves six bonding electrons as opposed to the typical two in a covalent single bond.
• With a bond order of three, triple bonds are stronger than the corresponding single bonds or double bonds.
• Alkynes have the two-carbon triple bond, which is the most typical type of triple bond.
• Cyanides and isocyanides are two more functional groups that include a triple bond.
• Some diatomic compounds, like carbon monoxide and dinitrogen, also have triple bonds.
• The triple bond is represented in skeletal equations by three parallel lines (≡) connecting the two atoms that are joined.
• Orbital hybridization may be used to describe the different bonding kinds.
• Each carbon atom in acetylene possesses two sp-orbitals and two p-orbitals.
• The x-axis is occupied by the two sp-orbitals, which are linear with 180° angles.
• On the y-axis and the z-axis, the p-orbitals are perpendicular.
• The sp orbitals overlap when the carbon atoms get close to one another, creating an sp-sp sigma bond.
• Without using a pi-bond, the triple bond may also be created in the bent bond model by the overlapping of three sp3 lobes.

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Answer 3

A Triple Bond is what?

• A triple bond is created between two carbon atoms when three pairs of electrons are shared between them.
• The triple bond that forms between the carbon atoms in alkynes sets them apart from other hydrocarbons.

Three-bond alkynes:

• Acetylene's triple-bonded carbon atoms undergo hybridization. The hybridized sp orbitals are overlapped head-on to create the sigma bond between the carbon atoms.
• One C-H sigma bond and two weaker pi bonds are formed when the remaining orbitals of the carbon atoms overlap with one another along the internuclear axis in the 1s orbital of each hydrogen atom.
• When orbitals overlap, these linkages are created.
• Only one of each carbon atom's three p-orbitals is in use.
• As a result, only one electron is present in each of the two remaining p orbitals.
• This enables the pairing of electrons that leads to the production of two pi bonds because it is the same for the other carbon atom.
• The presence of a one sigma bond strengthens the carbon-carbon triple bond.

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