Red.
Be more specific...because Visible light "Rays" are diffracted in those ways.
Recall sin@ = N m L As wavelength is more for red, red gets diffracted more. @ is the angle of diffraction.
Yes longitudinal waves can be diffracted. Example: Light waves.
When light, for example, is reflected it does not enter the reflecting medium. However, to be refracted or diffracted, light must pass through the system that is altering it.
Yes.
Red.
Be more specific...because Visible light "Rays" are diffracted in those ways.
Light is diffracted and diffused as it enters the lens. Because the lens is not perfectly clear, some light is reflected. As the light strikes the sensor, it is absorbed and converted into electronic information.
Recall sin@ = N m L As wavelength is more for red, red gets diffracted more. @ is the angle of diffraction.
true
Yes longitudinal waves can be diffracted. Example: Light waves.
The light, passing though the lens of a projector is diffracted so that a small picture is projected as a large image.
When light strikes matter, it may be transmitted or absorbed. In addition,it may be reflected, refracted, scattered, and/or diffracted,
Nothing. It continues to propagate at the speed of light, and is not diffracted or distorted except by negligible gravitational effects.
school
When light, for example, is reflected it does not enter the reflecting medium. However, to be refracted or diffracted, light must pass through the system that is altering it.