Purpose
To demonstrate that reactivity increases as valence electrons become easier to remove in alkali metals.
Procedure
- Preparation:
- Gather materials: Petri dish, water, phenolphthalein, freshly cut alkali metal samples (lithium, sodium, potassium), stick lighter, hexanes, and 3 L conical flasks.
- Setting Up the Experiment:
- Fill the Petri dish with water and add a few drops of phenolphthalein.
- Adding Lithium:
- Take a freshly cut half lentil-sized sample of lithium and add it to the dish.
- Observe the fizzing and movement of lithium in the water.
- Adding Sodium:
- Repeat the process with sodium, observing the reaction.
- Adding Potassium:
- Carefully add potassium to the dish. Note that potassium may catch fire upon reaction.
- Igniting Hydrogen:
- The hydrogen gas produced by the reactions of sodium and lithium can be ignited using a stick lighter, resulting in colored flames.
- Preparation of Metals:
- Rinse the alkali metals with hexanes to remove any mineral oil.
- Use a paper towel to absorb excess oil from the metals before adding them to the water.
- Safety Considerations:
- Be cautious with the size of the metal pieces.
- If using larger samples, consider conducting the experiment in a beaker with a cover.
- Watch for smoke if any mineral oil is not completely removed.
- Using Conical Flasks:
- Use 3 L conical flasks to trap hydrogen gas.
- Invert a paper cup on the flask to trap the hydrogen gas, which can ignite.
Safety Precautions
- Only bring small amounts of alkali metals to the experiment.
- Handle all materials with care to prevent accidents, especially with potassium.
- Ensure proper ventilation when conducting the experiment.