sleepsleep said:would like to ask, is that possible to generate electricity without using available electric and magnet?
could the positive or negative field be gathered without using the magnet?
As said before, you can make as much as you want (and are willing to pay for!) with solar panels, thermocouples, piezo materials, etc.cshum00 said:I have the same question but modified a little bit. Can large amount of electricity easily be created without using magnets?
I guess it is, but it has very little effect on the efficiency of generators.Why do i ask that? Well, for we to have magnets we have to have electricity. Power plants use electromagnets which are powerful magnets generated by electricity. But for the electricity to be there for the electromagnets in the first place we have to have actual magnets to generate electricity. So, it feels like chasing after the chicken and the egg terminology here.
cshum00 said:That's really cool but that is low voltage for ICs. My question was about large power energy generation.
Maybe to be more specific. I know power plants require electromagnets to generate electricity but for there to be electromagnets there have to be electricity first but for there to be electricity there have to be magnets. So, how i am in the magnet (chicken) and electricity (egg) infinite recursion problem.
nothing is done before that..! what happens is the core of the electromagnet retains a small part of the magnetic field whenever stopped. small amount of initial magnetic field is enough to get the generator started and in minutes completely magnetizes the core..! this magnetic field is used to produce electricity, small amount of energy does get discharged in producing the magnetic field but it is still convenient to have electromagnets instead of permanent magnets for it is too heavy and does not provide a provision to stop its magnetic interference when undesired.cshum00 said:Sorry for reviving this old thread but i thought that it would be better than creating a new redundant thread.
I have the same question but modified a little bit. Can large amount of electricity easily be created without using magnets?
Why do i ask that? Well, for we to have magnets we have to have electricity. Power plants use electromagnets which are powerful magnets generated by electricity. But for the electricity to be there for the electromagnets in the first place we have to have actual magnets to generate electricity. So, it feels like chasing after the chicken and the egg terminology here.
Therefore, i was wondering if something was done before that or if there is anything i am missing in the first place.
Starting a power station from scratch is tricky. It's called a black start and involves having lots of backup diesel generators to start the main turbines and generators spinning and to operate things like feed water pumps and air blowers.gmax137 said:No, it isn't an infinite recursion problem, it ends in a battery ! In a commercial power plant, the batteries flash the field in the generator (energizing the field coils); .
No, you can make a magnet by just hitting a piece of metal.cshum00 said:one would still need some power source to actually store the energy into the magnets when you make permanent magnets for the first time.
But not electricty, you can make a battery with two metals dug out of the ground and put in a beaker of acidAnd so it is the same for the batteries. You need power source to power up the industry or machinery that makes batteries.
That is new to me. Is there anywhere can find more information about it? I thought that magnets where metal alloys where you have to charge them up with energy otherwise they would be just a regular metal.mgb_phys said:No, you can make a magnet by just hitting a piece of metal.
Cool. Some manual labor but doable.mgb_phys said:But not electricty, you can make a battery with two metals dug out of the ground and put in a beaker of acid
The external source is already available. I read somewhere that some types of big generators are aligned N-S to minimize voltages induced in the rotating armature by the Earth's magnetic field. So an unshielded rotating coil with its axis perpendicular to the Earth's magnetic field will generate a voltage.cshum00 said:Then to answer my own question, it means that that the source of energy that gives the start to generate electricity comes from actually an external source which has to be prepared before hand. Is that right?
cshum00 said:Thanks for the replies. Now this is getting better.
So, it means that starting from scratch is indeed a problem. First we have to create lead batteries and so on and the after having certain tools ready like permanent magnets and so on then we can actually start the plant generator easily. Is that what is happening?
Then to answer my own question, it means that that the source of energy that gives the start to generate electricity comes from actually an external source which has to be prepared before hand. Is that right?
cshum00 said:That is new to me. Is there anywhere can find more information about it? I thought that magnets where metal alloys where you have to charge them up with energy otherwise they would be just a regular metal.
Cool. Some manual labor but doable.
cshum00 said:That is new to me. Is there anywhere can find more information about it? I thought that magnets where metal alloys where you have to charge them up with energy otherwise they would be just a regular metal.
Cool. Some manual labor but doable.
Electricity can be generated without using magnets through various methods such as chemical reactions, mechanical motion, and heat. These processes involve converting one form of energy into electrical energy, rather than using magnets to produce electricity.
Some examples of electricity generation without using magnets include solar panels, wind turbines, hydroelectric dams, and fuel cells. These methods all use different forms of energy to produce electricity, such as sunlight, wind, water, and chemical reactions.
In some cases, electricity generation without magnets can be just as efficient as traditional methods. For example, solar panels and wind turbines have become increasingly efficient in recent years. However, some methods may still have lower efficiency compared to traditional methods.
One of the main advantages of electricity generation without magnets is that it can utilize renewable sources of energy, such as sunlight, wind, and water. This reduces our reliance on fossil fuels and helps to reduce carbon emissions. Additionally, some methods can be more cost-effective and have a lower environmental impact.
One potential drawback is that some methods may require specific conditions to generate electricity. For example, solar panels require sunlight and wind turbines require wind. This can limit their use in certain areas. Additionally, some methods may still have a higher initial cost compared to traditional methods.