lol not giving the answer to anyone
No, a magnet does not lose its power of attraction when it is dipped in water. The magnetic field of the magnet remains intact in water and it can still attract objects.
what are the things pass through magnet fields?
H2O is 2 hydrogens plus 1 oxygen and that makes the chemical formula for water.
Magnets are "demagnetized" by extreme heat. If you boil a magnet in water, the heat will demagnetize the magnet.
H2O is water. There is no chemical name for it. Water is two hydrogen atoms covalently bonded to a single oxygen atom.
lol not giving the answer to anyone
Since water is a liquid, it does not have any definite shape. It takes on the shape of its container.
No, a magnet cannot separate water into hydrogen and oxygen. Water molecules consist of one oxygen atom and two hydrogen atoms bound together by covalent bonds, which are not affected by magnetic fields. Separating water into hydrogen and oxygen requires a chemical reaction, such as electrolysis.
To fix a lopsided soccer ball, first, check for any air leaks by submerging it in water and looking for bubbles. If you find a leak, patch it with a suitable adhesive repair kit. If the ball is simply misshapen, try inflating it to the recommended pressure, as proper inflation can help restore its shape. Finally, rolling it on a flat surface can help redistribute the internal materials for a more even shape.
I would think this would be obvious...but whatever. If your pool is lopsided, it means the integrity of the sidewalls has been breached. Could have a blowout as it were. Too much water displacement can put too much pressure on the lopsided wall causing failure.
Items like H2O and CoC2 have a definite chemical composition, and require exact amount of particles to forma reaction. However; particles which are soluble in water do not have a definite chemical reaction.
Iron. Iron is a malleable metal that is easy to shape, but when exposed to water it can rust due to a chemical reaction with oxygen in the air and moisture.
Yes, a magnet can float on a cork in water because the cork provides buoyancy to keep the magnet afloat. The buoyant force of the water supports the weight of the cork and the magnet, allowing them to float together.
water
The magnet should be able to extract iron out of water as water and iron are not chemically combined. If the water and iron would have chemically combined then it would be futile to separate them using a magnet. Note that the stronger the magnet the more iron will be removed from water.
When we pour water onto a magnet it loses a little bit of magnetic power.
A magnet would typically sink in water as it is denser than water and does not have the buoyancy to float.