You are given a beaker that contains a mixture of Beads, Salt, Sand, and Iron Fillings. Your jobs is to separate the mixture into its components.

Identify the separation technique that will be used to separate the components of a mixture

Beads, Salt, Sand, and Iron Fillings.

Remove the iron filings with a magnet. That leaves beads, salt, sand.
Add water to dissolve the salt. Filter. Salt is is in solution and becomes the filtrate. Boil away the water leaving the salt. Now we have sand and beads.
Place the sand and beads in a shallow dish. Shake. The beads will work their way to the top where they can be removed physically. Sand is left.
Separation done.

To separate the components of the mixture, you can use several separation techniques, including:

1. Magnetic Separation: Since the mixture contains iron filings, which are magnetic, you can use a magnet to attract and separate the iron filings from the rest of the components.

2. Filtration: Filtration can be used to separate the sand from the other components. A filter paper or a filter funnel with a fine mesh can be used to trap the sand particles while allowing the smaller particles and liquids to pass through.

3. Density-based separation: Beads and salt have different densities, so you can use the technique of density-based separation to separate them. One method is to dissolve the salt in water, leaving the beads behind. Afterward, the saltwater solution can be evaporated to obtain the salt.

4. Evaporation: This technique can be used to separate the saltwater solution obtained from density-based separation. By heating the saltwater solution, the water will evaporate, leaving behind the salt crystals.

By using these separation techniques, you can separate the beads, salt, sand, and iron filings, and obtain them as individual components.