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∙ 11y agouse a magnet to get the iron filings out. then add water to the salt and sand and use a funnel and filter paper to separate the sand from the now salty water catch the water from the funnel in a glass bowl . place the glass bowl on top of a gauze which is balanced on a tripod which under that is a bunsen burner on it's hottest flame. the water will evaporate and you will be left with the salt
Wiki User
∙ 11y agoA magnet can be used to separate a mixture of sand and iron filings because iron is attracted to magnets, while sand is not. By moving the magnet through the mixture, the iron filings will be attracted to the magnet and can be separated from the sand.
Wiki User
∙ 14y agoBecause a magnet attracts the Iron Filings and not the salt and sand (which do not contain Iron). Simple. Because iron is magnetic, salt and sand are not. Therefore the magnet only picks up the magnetic objects, in this case iron.
Three quick and dirty ways;
Add warm water, the salt will dissolve and leave the iron, or
Pass a strong magnet over the mix and the iron filings will cling to it, the salt won't, or
Centrifuge the mix, the iron will move to the bottom
Wiki User
∙ 14y agoBecause the Iron is attracted to the magnet and the sand isn't
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∙ 12y agoYou can seperate sulphur and iron by using a magnet to bring the iron to one side and the sulphur to another, if it is properly mixed it won't seperate.
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∙ 11y agoThe magnet will attract the iron and separate then iron from the sand. The sand will be left and the iron will be on the magnet.
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∙ 6y agoYou can use a magnet to attract the iron filings. Magnesium is not magnetic.
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∙ 16y agoGet another magnet.
Wiki User
∙ 13y agoyes because iron filings are magnetic
Wiki User
∙ 6y agoA magnet attract iron fillings.
Aluminum and iron can be differentiated because iron is magnetic and aluminum is not. To separate them, expose the filings to a magnetic source and the iron will separate.
Gravel is not magnetic, so it cannot be separated using a magnet. Magnets are only effective in separating materials that contain iron or other magnetic metals.
A magnet can be used to quickly separate the iron paperclips from the mixture, as the paperclips are magnetic and will be attracted to the magnet. To separate the sand from the mixture, pouring the mixture through a sieve can help separate the larger sand particles from the smaller iron paperclips.
To separate chalk powder and iron filings, you can use a magnet to attract and remove the iron filings. Then, you can mix the remaining chalk powder with water to dissolve it and filter out any remaining solid residue.
A magnet is not effective at separating salt and water because salt is not attracted to magnets. The components in the mixture have different physical properties (magnetism for the magnet, solubility for the salt) that make it impossible to separate them using a magnet. You would need to use methods like evaporation or filtration to separate salt from water.
Mixture of metallic and non-metallic substances can be separated using magnet. For example - mixture of same and iron powder.
Aluminum and iron can be differentiated because iron is magnetic and aluminum is not. To separate them, expose the filings to a magnetic source and the iron will separate.
Pure iron filings will be attracted to a magnet; but pieces of iron carbonate will not.
Gravel is not magnetic, so it cannot be separated using a magnet. Magnets are only effective in separating materials that contain iron or other magnetic metals.
A magnet can be used to quickly separate the iron paperclips from the mixture, as the paperclips are magnetic and will be attracted to the magnet. To separate the sand from the mixture, pouring the mixture through a sieve can help separate the larger sand particles from the smaller iron paperclips.
If the objects are small then you can use different tools to help you out.
1. Only sodium chloride is soluble in water; after filtering sodium chloride pass in the solution and the others remain on the filter.2. Iron can be separated with the help of a magnet or electromagnet from the mixture.3. Sulfur is soluble is carbon disulfide and after dissolution and filtering remain in the solution.4. Charcoal remain on the filter.
To separate chalk powder and iron filings, you can use a magnet to attract and remove the iron filings. Then, you can mix the remaining chalk powder with water to dissolve it and filter out any remaining solid residue.
A magnet is not effective at separating salt and water because salt is not attracted to magnets. The components in the mixture have different physical properties (magnetism for the magnet, solubility for the salt) that make it impossible to separate them using a magnet. You would need to use methods like evaporation or filtration to separate salt from water.
Yes, magnets can attract iron filings because iron is a ferromagnetic material that is highly responsive to magnetic fields. When a magnet is brought close to iron filings, they align with the magnetic field and are attracted to the magnet.
One way to separate a mixture of iron dust and zinc dust is by using a magnet. Iron is magnetic, so you can use a magnet to attract the iron dust while leaving the zinc dust behind. Alternatively, you could dissolve the mixture in a suitable solvent where zinc will dissolve, leaving iron to settle at the bottom.
A green powder is likely a mixture if it is composed of different substances that can be physically separated. If the powder has a uniform composition and cannot be separated into different components by physical means, it is likely a compound. Chemical analysis and tests can also help determine if the green powder is a compound or mixture.