Create a detailed and appealing image which illustrates the process of extracting pure iodine from a mixture of iodine and lead (ii) sulphate. The image should display the intricacies of a properly equipped chemistry lab, with glass beakers, test tubes, pipettes, and other critical lab equipment, preferably arranged on a lab bench. The illustration should also include the iodine-lead (ii) sulphate mixture in a glass beaker, and steps showcase the extraction process. Additionally, the image should not contain any text.

How would you obtain a sample of a pure iodine from a mixture of iodine and lead (ii) sulphate.

You don't say how much pure I2 you want, but for small amounts you can place the mixture in a beaker, place a watch glass containing some water (or a piece of ice) over the top of the beaker, GENTLY heat the beaker containing the mixture. The I2 will sublime and re condense on the underneath side of the watch glass. Remove the watch glass and scrape off the solid I2 from the bottom of the watch glass.

Answer plzz

Ne the type of reaction undergone by pottasium nitrate

Well, first you could put on some goggles and a lab coat, just in case things get iodine-tastic! Then, you can take advantage of the good ol' chemistry concept of solubility. Since iodine is more soluble in organic solvents like ether or carbon tetrachloride compared to lead (II) sulfate, you can easily extract the iodine.

So, here's the trick: Add some organic solvent to your mixture and shake it like a frenzied maraca player. The iodine will happily dissolve in the organic solvent, while the lead (II) sulfate will be left behind like a wallflower at a dance party. After shaking, separate the organic solvent layer from the mixture and then evaporate the solvent to leave behind a delightful sample of pure iodine!

Just remember, safety first! Always conduct any chemical experiment under proper supervision. You wouldn't want your eyebrows to end up looking like they tried to swim in a pool of iodine, would you?

To obtain a sample of pure iodine from a mixture of iodine and lead(II) sulfate, you can use a process called sublimation. Here's how you can do it:

Materials needed:
1. Mixture of iodine and lead(II) sulfate
2. Heat source (e.g., Bunsen burner or hot plate)
3. Heat-resistant container
4. Cold surface (e.g., a beaker with ice or a cold metal plate)
5. Glass funnel and filter paper

Procedure:
1. Start by placing the mixture of iodine and lead(II) sulfate into a heat-resistant container. Ensure that the container is clean and dry.
2. Set up a glass funnel with filter paper on top of a clean, dry container to collect the sublimed iodine.
3. Place the mixture container on a heat source, such as a Bunsen burner or hot plate, and apply gentle heat.
4. As the mixture is heated, the iodine will sublimate, which means it will convert directly from a solid to a gas without melting.
5. The iodine vapor will rise and condense on the colder surface above the container, which is the glass funnel with filter paper.
6. Allow the sublimation process to continue until most of the iodine has been collected on the filter paper.
7. Once the sublimation process is complete, carefully remove the container from the heat source and let it cool down to room temperature.
8. Carefully remove the filter paper containing the sublimed iodine from the funnel and place it in a clean, dry container.
9. You now have a sample of pure iodine.

Important points to consider:
- Sublimation occurs when the vapor pressure of a substance exceeds its melting point pressure, resulting in the direct transformation from a solid to a gas.
- By controlling the heating and condensing temperatures, you can separate iodine from the lead(II) sulfate, as the sulfur compounds will not undergo sublimation.
- It's crucial to handle iodine with care, as it can stain and be toxic. Make sure to perform the process in a well-ventilated area or under a fume hood.

It's important to note that this procedure is for educational purposes and should only be performed by individuals with appropriate knowledge, expertise, and safety precautions.