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User:Veronika Pelekhov/Sandbox 1

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''' [[en:SN1 reaction]]
''' [[en:SN1 reaction]]
== S<sub>N</sub>1 {{RTL | וטרט-בוטיל אלכוהול במנגנון}} Cl<sup>-</sup> {{RTL |התמרה נוקלאופילית של}} ==
== S<sub>N</sub>1 {{RTL | וטרט-בוטיל אלכוהול במנגנון}} Cl<sup>-</sup> {{RTL |התמרה נוקלאופילית של}} ==
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<StructureSection load='' size='340' side='right' caption='' scene='54/542276/Side_view/1'>
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{{RTL | .שייך לתגובות הבסיסיות בכימיה האורגנית}} S<sub>N</sub>1 {{RTL |מנגנון התמרה נוקלאופילית }}
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{{RTL | .שייך לתגובות הבסיסיות בכימיה האורגנית}} S<sub>N</sub>1 {{RTL |מנגנון התמרה נוקלאופילית }}
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{{RTL |.ספרה 1 מעידה על כך שזו תגובה חד-מולקולרית }} This means that in the rate determining step of the reaction, only one of the educts is involved. The kinetic of the reaction therefore follows the reation rate of first order.
{{RTL |.ספרה 1 מעידה על כך שזו תגובה חד-מולקולרית }} This means that in the rate determining step of the reaction, only one of the educts is involved. The kinetic of the reaction therefore follows the reation rate of first order.

Revision as of 09:14, 5 July 2021

Contents

SN1 התמרה נוקלאופילית - מנגנון

SN1 וטרט-בוטיל אלכוהול במנגנון Cl- התמרה נוקלאופילית של 

  .שייך לתגובות הבסיסיות בכימיה האורגנית SN1 מנגנון התמרה נוקלאופילית

.ספרה 1 מעידה על כך שזו תגובה חד-מולקולרית This means that in the rate determining step of the reaction, only one of the educts is involved. The kinetic of the reaction therefore follows the reation rate of first order.

In general, substitutions exchange substituents in an organic molecule. One example of an SN1 reactions are the exchange of the Hydroxide in tert-Butanol by a Chloride Ion or

In general, SN1 substitution can take place when a stable carbocation can be formed. If not, the reaction follows the SN2 mechanism. The SN1 with the removement of a hydroxide-ion out of the molecule, in this case tert-Butanol. By this, a positively charged carbocation with a planar geometry is formed. This step is also the rate-determing step because it is the slowest step in this reaction. In the , the haloanion bound to the carbocation, and a neutral haloalkane is formed. With this step, the hydroxy-substituent is replaced by a halogen-substituent.

See also

SN2 reaction: Substitution of chloride and methanol

References

This demo was adapted from http://www.chemieunterricht-interaktiv.de/en/animations/sn1_substutition/sn1_substitution_3d.html by Dr. V. Pietzner, part of the ChiLe project

</StructureSection>

Proteopedia Page Contributors and Editors (what is this?)

Veronika Pelekhov, Joel L. Sussman

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