contestada

The molecule 2-butene is able to undergo a process called cis-trans isomerization, where the molecule switches from being a cis-alkene to a trans-alkene. This transformation can be induced by light. H H3C light XX C: ___H3C CH3 ____H CH3 What is the hybridization of the two central carbon atoms in 2-butene? O sp O sp2 O sp3 The isomerization requires breaking the a bond. Use the table of bond energies to determine the approximate amount of energy (in joules) required to break the C-C a bond in 2-butene, both per mole and per molecule.E= J/mol E = J/moleculeWhat is the wavelength of light that would be required to perform the cis-trans isomerization of one molecule of 2-butene? = nm nm Which region of the electromagnetic spectrum is this wavelength of light within? O visible O ultaviolet O X-ray O infrared

Respuesta :

The molecule 2-butene is able to undergo a process called cis-trans isomerization, the molecule switches from being a cis-alkene to a trans-alkene. hybridization of the two central carbon atoms in 2-butene is sp².

The molecular formula of the 2 - butene is given as follows :

CH₃ - CH = CH - CH₃

The total number of carbon in the butene molecule is four. the first and the four carbon in the structure formed the covalent bond with three hydrogen and the carbon. in the theses position the hybridization is the sp³. the second and the third carbon that is the central carbon has the three sigma bond that is single bond and one is the double bond that is pi bond is the sp² hybridize.

To learn more about hybridization here

https://brainly.com/question/25648755

#SPJ4

Otras preguntas