Many metals will glow when heated to a high enough temperature. The metal (like in a light bulb filament) is heated up from the current passing through it. Most incandescent light bulbs use a tungsten filament.
Appliance Heating elements (like in an electric oven), are usually composed of nickel and chromium. You can visually verify that Heating elements in ovens and toasters glow, as well.
Iron oxide is oxidized iron, that was probably obvious but yeah. The iron went through oxidization to become Iron oxide, so it needs to go through reduction to extract the iron again, which is the opposite chemical reaction to oxidization. DIY method: (Oh yeah, DO THIS OUTSIDE) Get some sawdust, some sand, a metal trash can or a basin type thing (or anything heat resistant that won't react really, unglazed ceramic does well). Make a ring of sand on the ground, and line the basin up so that the rim is all immersed in sand, this is to ensure that the reduction chamber is air-tight. Then make a birdsnest of sawdust inside the ring of sand. If your iron oxide is in a powder form or small chunks, you may want to put it on a fireproof, nonreactive plate of some kind. Put the Iron oxide in the saw dust and light the saw dust on fire. Quickly through another handful or so of sawdust on top and, again quickly, put the basin over the ring of sand. If necessary (it most likely will be), put more sand around the outside and hold down (use heat resistant gloves for this). Wait until the fire has burned out and has cooled down somewhat, then remove the trashcan/basin/chamber. You should have, aside from a lot of burnt up sawdust, some iron metal.
Yes, you can. You may recall that by running electricity through a coiled wire (solenoid) with an iron bar in the center, we can create an electromagnet. If we reverse this process and put a strong magnet through a solenoid, we can generate electricity. All you will have to do is move the magnet up and down in order to generate electricity.
Iron is considered a moderately reactive metal. It reacts slowly with oxygen in the air to form iron oxide (rust), but it doesn't react as vigorously as highly reactive metals such as sodium or potassium.
Use a magnet to filter it out. Put the magnet in a plastic bag so the powder does not stick to the magnet directly. Put the powder into some water and the iron with sink and then you can get the sulphur first and then the iron. Added: The other possibility is to dissolve sulphur powder in Carbon disulphide ( CS2 ). The only disadvantage is, that this water immiscible fluid is rather stinky (rotten cauliflower) and highly flammable.
the iron (III) acetate stay in water solutionthe iron (III) acetate stay in water solutionWrite the reaction when iron(III) acetate is put into water?A strong electrolyte dissociates completely into ions in aqueous solution. When iron(III) acetate, a strong electrolyte, is put into water the cations and anions are surrounded by water molecules and the solid dissolves.Fe(CH3COO)3(s) Fe3+(aq) + 3CH3COO-(aq)We represent this state by the symbol "(aq)" to indicate that the ions are in aqueous solution.
When electricity is passed through neon gas at low pressure, it emits a bright orange-red glow. This phenomenon is used in neon lights and signs.
You can put DC electricity through it
put a wire through it
Because it's see through so the light reflects
Electric power is put trough a metallic filament inside a bulb that is filled with an inert gas. the filament is surrounded by the inert gas rather then air to stop the metallic filament from oxidizing when it starts to glow as a result of the electricity being run through it. the glowing filament produces the light.
Yes, through heat from resistance in the wire.
put acne creme on, let it dry, and then put on dove energy glow.
put the boxes in the electricity ten keep going
Because electricity flow through it's wire. Electricity came from outlets source. When you plugged in a device, electricity will flow into two ways. One is directed on a bulb and the other one is cut. Two points of cut wires are put in a switch so if you presses the switch, the other current (whether positive or negative) will generate full electricity that is capable of lighting a light bulb.
Yes, copper and iron wires can conduct electricity when submerged in water because water is a good conductor of electricity. However, it is not recommended to test this as it can be dangerous due to the risk of electric shock.
Get plain putty and put glow stuff on it
No, electricity cannot be put in a jar. Electricity is the flow of electric charge through a conductor, and it requires a complete circuit to flow. You can store electrical energy in a battery or capacitor, but you cannot store the flow of electricity itself in a jar.