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It seems if simple static electricity experimentscan sufficiently harness 'static electricity' to reveal visible effects, i.e. a charged comb makes hair stand up,then the same effect should be applicable on a much larger scale.Why? Because the hair is attracted to the 'charged comb,'it indicates a 'magnetic effect.'Once the 'magnetic effect' is applied to a visible result, i.e. hair standing up, it means static electricity has been converted to magnetic power.It seem to me, it should be possible to create this 'magnetic power' on a far larger scale by accessing the enormous static electricity that pervades the air around us.So, if someone out there has ever produced magnetism by accessing 'static electricity' on a scale that would light up a light bulb, recharge a cell phone, or run a refrigerator, or even run a car, I'd really like to see it or hear about it?
The Zeeman effect is the splitting of single spectral lines into three or more in the presence of a magnetic field.
Some material whose spins can be aligned (and in turn align spins of other materials close enough to feel the effects of its magnetic field) and electricity.
This effects demonstrates the way electricity interferes with a magnetic field. A magnetic field will be changed by the passage of electric current. This is due to the orthogonal H field and E field and how they relate to each other. Important in antenna design, especially amateur radio work.
ferromagnetic material
when light is traveling through a material that does not conduct electricity, the light field can generate magnetic effects that are 100 million times stronger than previously expected.Under these circumstances, the magnetic effects develop strength equivalent to a strong electric effect.
Any time a current flows, any time an electrical charge moves, it is surrounded by a magnetic field. Several devices made by humans make use of this effect.
If safety measures are properly applied, they should improve or increase employee welfare.
Solar wind has a large effect on the earth.. It brings these clouds (cant remember name) down. which affects electricity very much. Due to the magnetic field of the clouds
It seems if simple static electricity experimentscan sufficiently harness 'static electricity' to reveal visible effects, i.e. a charged comb makes hair stand up,then the same effect should be applicable on a much larger scale.Why? Because the hair is attracted to the 'charged comb,'it indicates a 'magnetic effect.'Once the 'magnetic effect' is applied to a visible result, i.e. hair standing up, it means static electricity has been converted to magnetic power.It seem to me, it should be possible to create this 'magnetic power' on a far larger scale by accessing the enormous static electricity that pervades the air around us.So, if someone out there has ever produced magnetism by accessing 'static electricity' on a scale that would light up a light bulb, recharge a cell phone, or run a refrigerator, or even run a car, I'd really like to see it or hear about it?
The Zeeman effect is the splitting of single spectral lines into three or more in the presence of a magnetic field.
Stuart H. Wemple has written: 'Polarization effects on magnetic resonances in ferroelectric potassium tantalate' -- subject- s -: Electron paramagnetic resonance, Magnetic properties, Polarization - Electricity -, Potassium tantalate
If electricity is transmit at high current then this will requires heavy conductors,be it copper or aluminium. This will increase the cost of transmission. Also, the heating effects i.e the energy lost due to head will increase as well. Thus, it's never ideal to transmit electricity at high current.
power demand will increase in generating stations tariff will go up savings of energy for future is very important
A picture style is a combination of formating effects applied to a picture.
Some material whose spins can be aligned (and in turn align spins of other materials close enough to feel the effects of its magnetic field) and electricity.
Feldspar itself is not magnetic. Tiny inclusions of magnetic minerals produce the observed effects.