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well not entirely sure but i know that the forth quantum number accounts for the electron spin positive or negative and you can tell if the metal is ferromagnetic or paramagnetic if the spins are paired and cancle the net charge. mabey since the electromagnetic-wave theory suggests that light is an electromagneticwave composed of electric and magnetic fields that can exert forces on charged particles. so i think im close. and the photo-electric effect is a key experiment leading to quantum theory so that involves the effect of electromag raditn or light on substances, particularly certain metals. i don't know becasue this experiment actually releases electrons and they bounce off the "shiney" metal surface and the current is recorded. but i think also i may be off track becasue the metal is used just for light.if you look up "the normal Zeeman effect" it should direct you, its about the magnetic quantum number,the energies of the orbits are different when the atom is near a strong magnet.
good luckcheers :)
What else can I help you with?
How is light related to electricity and magnetism?
Light is an electromagnetic wave, consisting of oscillating electric and magnetic fields. This connection is described by Maxwell's equations in electromagnetism, which show how changes in electric fields can induce magnetic fields, and vice versa. This relationship is fundamental to understanding how light interacts with matter and how electricity and magnetism are interconnected phenomena.
Is a force that acts at a distance?
The electric force, the magnetic force and gravity, all act at a distance.The electric force, the magnetic force and gravity, all act at a distance.The electric force, the magnetic force and gravity, all act at a distance.The electric force, the magnetic force and gravity, all act at a distance.
What is the probable fate of our sun?
These phenomena, which are all related to the Sun's magnetic field, impact our near-Earth space environment and determine our "space weather" In the near future, the same as now.
What is the difference between magnetic force and electric force?
Magnetic force is the force between magnets or moving charges, while electric force is the force between electric charges. Magnetic force acts on moving charges perpendicular to both the velocity of the charge and the magnetic field, while electric force acts along the line connecting the charges.
Why are electrical and magnetic forces non contact?
Electrical and magnetic forces are non-contact forces because they can act over a distance without the need for direct physical contact between the objects. These forces are mediated by electric and magnetic fields, which can interact with charged particles or magnetic materials without requiring direct touch.
Do electric and magnetic lines of force physically exist?
The "lines" of latitude, longitude, reasoning, electric fields, and magnetic fields are imaginary.
Which of the following are created by an arrangement of electric charge or a current?
for apex its: a quantum field, a gravitational field
Can you make a magnet without using a magnetic material Explain?
If you are referring to a magnet as an object that possesses a permanent magnetic field, then yes. There are three circumstances where magnetic fields exist, but not as a result of a permanent magnet. 1. Electric current causes a magnetic field. Thus, any wire carrying a current or even a current without a wire (like a lightning bolt) will be surrounded by a magnetic field. Since electric current is made up of moving electric charges, it is actually true than any moving electric charge creates a magnetic field. 2. It is difficult to observe outside of a scientific laboratory, but when there is an electric field that is varying in time, that creates a magnetic field. Though not easy to demonstrate directly, this turns out the physical phenomena the allows the creation of elecrtromagnetic waves, e.g. like the light we see with our eyes. 3. Thirdly, one can cause materials that are not able to work as permanent magnets to act as temporary magnets. This is the basis for electromagnets. A steel or iron core with an electric current running through a coil surrounding the core will produce a magnetic field. If you simply cut off the power source, the electric current will no longer flow through the coil. No electric current, no magnetic field. When a non-permanent magnet is created, the magnetic field it produces is just the same as the magnetic field of a permanent magnet, until the source is removed and the field disappears. All of these matters together are an essential part of the basics of electromagnetism which describes how and why the phenomena work.
How are electricity static electricity and magnetism related?
well in simple terms a static electricity is charge, which is a basic quality of matter , in fact it is as basic as mass. Now, a charge in motion is a current or in other words electricity. And magnetism is a result of the motion of charge. so in a way these all three are related.
The study of electric charges at rest?
The study of electric charges at rest is known as electrostatics. It deals with the behavior of stationary electric charges and the forces between them, as well as their interactions with electric fields and potentials. Electrostatics forms the foundation for understanding many phenomena in electricity and magnetism.
Are all chemical bonds electrical?
Why yes... yes they are. Be it magnetic, static or other, it's all electric.
What devices are based on the magnetic effect of current?
Devices such as electric motors, transformers, inductors, and magnetic-based sensors utilize the magnetic effect of current. These devices rely on the interaction between electric current and magnetic fields to operate effectively in various applications.
