High-beam lights are your sencondary head lights in any veicle. They can usually be turned on with the same botton you use to turn your head lights on. High beam lights are use to see farther and wider in dark areas.
You can see light rays with dust, flour, etc. If you turn on a flashlight, you can drop dust right where the light travels to actually see that beam of light. The same thing happens with red laser beams.
Compared to regular light, a laser beam: * Is monochromatic. All the photons have the same frequency, and thus the same energy. * All the photons have the same phase.
Assuming it is the same as the 1998 Mercury Tracer : The fog light switch is on the turn signal lever , next to the head light switch * you probably need to have your head lights on low beam
It refracts the light, basically taking the light beam apart and spreading it out to see all the visible colors in the light spectrum. Water does the same thing and that is how rainbows are made.
Yes, the beam just reflects off of the mirror. There is no beam created from the mirror.
A line of reflection is a reflected line, often off of a mirror. If a flashlight sends a beam of light at a mirror (the light is called the incident beam), the angle at which it hits the mirror will equall the angle at which the reflected beam of light (called the reflected beam), exits the mirror. This is called the Law of Reflection. This is why light is reflected from a mirror at the same angle at which light struck its surface. A line of reflection is a reflected line, often off of a mirror. If a flashlight sends a beam of light at a mirror (the light is called the incident beam), the angle at which it hits the mirror will equall the angle at which the reflected beam of light (called the reflected beam), exits the mirror. This is called the Law of Reflection. This is why light is reflected from a mirror at the same angle at which light struck its surface.
You can only see a beam of light if there are particles around it. So say there was a man standing under a street light, and the world around him was foggy, you could then see the beam of light coming from the street light. And its the same principal with any luminous object. If there's no particle around, then you can't see the beam of light.
No. Photons, the particles that make up a beam of light, have no rest mass, so they can't be considered "matter" by any reasonable definition.They do have a relativistic mass m = hv/c2 (that "v" should be the Greek letter nu), but that's not the same thing.
No. Photons, the particles that make up a beam of light, have no rest mass, so they can't be considered "matter" by any reasonable definition.They do have a relativistic mass m = hv/c2 (that "v" should be the Greek letter nu), but that's not the same thing.
No. Photons, the particles that make up a beam of light, have no rest mass, so they can't be considered "matter" by any reasonable definition.They do have a relativistic mass m = hv/c2 (that "v" should be the Greek letter nu), but that's not the same thing.
no