You have a mixture containing colorful pebbles, sand, sawdust, and tiny pieces of iron. a. Suggest methods to separate each of the components. b. Why could you separate tiny pieces of iron by the above-mentioned method?
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EPARTMENT OF CHEMISTRY
Separation of Sand, Iron, and Salt
The components of a mixture are separated based on their physical properties.
Equipment
flask for combining the components in water
magnet
fliter flask, funnel and filter paper
hot plate
evaporating dish
Reagents
sand
iron filings
sodium chloride
water
Presentation
The three components are shown in their pure states, then combined into the water to form a heterogeneous mixture. The salt dissolves, the other solids do not.
Using the fact that the iron is magnetic, the magnet can be used to separate the iron fillings from the mixture by moving teh magnet around in the container. Keeping the magnet in a plastic bag makes it easy to separate the filings from the magnet when you pull it out.
The sand can then be separated by passing the remaining mixture through the filter paper.
The salt can be separated from the supernatant by pouring some into the evaporating dish on a hot plate and evaporating the water.
Details
The underlying message of the demo is that the physical properties of the components of a mixture can be used to separate them from the mixture. This is a simple but important concept that we use in many chemical analysis and synthesis techniques.
Safety

Special Safety Notes
hot plate is hot during evaporation step

Iron, sand, and salt prior to mixing.

The collection of materials used in the demo.
Separation of Sand, Iron, and Salt
The components of a mixture are separated based on their physical properties.
Equipment
flask for combining the components in water
magnet
fliter flask, funnel and filter paper
hot plate
evaporating dish
Reagents
sand
iron filings
sodium chloride
water
Presentation
The three components are shown in their pure states, then combined into the water to form a heterogeneous mixture. The salt dissolves, the other solids do not.
Using the fact that the iron is magnetic, the magnet can be used to separate the iron fillings from the mixture by moving teh magnet around in the container. Keeping the magnet in a plastic bag makes it easy to separate the filings from the magnet when you pull it out.
The sand can then be separated by passing the remaining mixture through the filter paper.
The salt can be separated from the supernatant by pouring some into the evaporating dish on a hot plate and evaporating the water.
Details
The underlying message of the demo is that the physical properties of the components of a mixture can be used to separate them from the mixture. This is a simple but important concept that we use in many chemical analysis and synthesis techniques.
Safety

Special Safety Notes
hot plate is hot during evaporation step

Iron, sand, and salt prior to mixing.

The collection of materials used in the demo.
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Answer:
Firstly, the iron pieces can be separated by
a magnet.
Secondly, you can handpick the colourful pebbles and
later wash off the sand and saw dust present on it.
Thirdly, the saw dust and sand can be poured in water.
The sand dust will float on top due to gravitation, and
the sand will settle down at the bottom of the glass, due to
sedimentation and decantation.
Iron is magnetic. Therefore, iron can be removed by using a magnet..
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