It would depend on the type of particle.
the magnetic field
Earth itself is largely protected from the solar wind by its magnetic field, which deflects most of the charged particles; however some of the charged particles are trapped in the Van Allen radiation belt. XxBaby Dee
As particles photons travel in a straight line unless they are diverted by reflection, refraction, or a magnetic or gravitational field. Note that when it comes to gravity it can also be represented that the light continues in a straight line - but the space it travels through is curved so its path appears curved to the outside observer.
accorsing to the earths magnetic field
To map body tissues, MRI (Magnetic Resonance Imaging) uses a combination of techniques: a powerful magnetic field, and radio waves. Radio waves are utilized for mapping because they will not damage the body tissue.
The moon does not have the kind of magnetic field that the Earth does, and therefore it does not have the same kind of interactions with charged particles from the sun.
Changing the amount of magnetic field (known as "flux") through a conductor exerts a force on charged particles (electrons in the wire). A change in magnetic field strength in a region of space induces an electric field which circles the magnetic field lines, surprisingly whether or not there is a conductor there or not. It turns out that magnetism and electricity are inherently linked, they are kind of manifestations of the same thing. If "something" has the property of electric charge, it creates an electric field. If that something moves, it creates a magnetic field.
the magnetic field
Earth itself is largely protected from the solar wind by its magnetic field, which deflects most of the charged particles; however some of the charged particles are trapped in the Van Allen radiation belt. XxBaby Dee
As particles photons travel in a straight line unless they are diverted by reflection, refraction, or a magnetic or gravitational field. Note that when it comes to gravity it can also be represented that the light continues in a straight line - but the space it travels through is curved so its path appears curved to the outside observer.
To have an active magnetic field you must have a reasonably fast rotation speed, and a molten metal core. The earths moon has neither of these, so the answer is No, the moon doesn't have a magnetic field of any kind.
Basicly any kind of magnetic field
copper
Uranus NOVEL STARS ANSWER: None of these
You cannot classify the phase of matter of light. The particles of light are much different than the particles of ordinary matter. At a large level, if we take the measurements, the light is a transverse wave carried by disturbances in an electric field and a magnetic field, each in perpendicular oscillations to each other, and each perpendicular to the travel of the wave. At the smallest level possible, there is a smallest piece of which you could call light. These are called photons. They are also the force carrier particles of electric and magnetic forces. These particles have zero rest mass, but they have an effective mass when in motion at the speed of light
Magnetic field
One which responds to the disruption of a magnetic field.