10: Synthesis of 1-bromobutane

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PURPOSE

The purpose of this experiment is to:

Set up a reflux apparatus.
Convert 1-butanol to 1-bromobutane.
Analyze the product using chemical tests.

INTRODUCTION

Under certain conditions, primary alcohols can be converted into primary alkyl halides. In this experiment, 1-bromobutane will be synthesized by the S_N2 reaction between 1-butanol and sodium bromide. In the first step of the mechanism, the alcohol is protonated to form a water molecule, which serves as a good leaving group. Then the iodide ion will attack the carbon atom as the water molecule leaves.

The reaction will be run under reflux conditions, a safe method for carrying out organic syntheses. Reflux involves attaching a round-bottom flask to a condenser, leaving it open to avoid pressure buildup. Cold water circulates from the bottom to the top of the condenser, allowing the reactants to be heated without evaporating.

Once the product is synthesized, it will be characterized using the sodium iodide reagent, a chemical test for primary or secondary alkyl halides. When the reagent is added to an unknown, the formation of a precipitate indicates the presence of a halogen. The Beilstein test will also be used to test for the presence of an alkyl halide. This chemical test involves placing a copper wire coated with the sample into a flame. A green flame indicates the presence of a halogen.

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