It goes to "the point at infinity"
6m
A parallel light source will reflect off a concave mirror and go through a point inside the curve called the focus. Reflecting from a convex mirror will cause all light to bounce off in a straight line away from a focus point behind the mirror.
It does not have a specific name.
The answer is 15 millimeters behind the mirror, and the distance from the actual object to the image is 30 millimeters. Plane mirrors have a flat focus that places the image as far behind the mirror as you are in front of it.
someone threw a dart into a ford focus and some dude thought this is a pretty cool name for a town
It is reflected back parallel to the principal axis. (apex)
It is reflected back parallel to the principal axis. (apex)
It is reflected back parallel to the principal axis. (apex)
since the convex mirror is curved outwards the the focus is behind the mirror
It is called a Cassegrain. The small convex subreflector is a hyperboloid with one focus at the focus of the main mirror, and the other focus just behind the main mirror where the eyepiece is.
The mirror glass for a Ford Focus is available online at places like CariD and Parts Geek. You can also buy the entire mirror online on eBay for about $30.
The convex mirror diverges light rays, so if you draw the reflected rays in front of the mirror and continue drawing them at the back of the mirror the virtual light rays (at the back of the mirror) will join. This point is called a Virtual Focus Point.
A parabolic mirror would do the job.
there is an imaginary point in front of the concave mirror, called the focal point or focus, which is half the length of the radius of the sphere of which the mirror was a part of(radius of curvature). usually an object if seen in between the mirror and focus gets magnified, beyond the focus, it gets inverted and reduced.
The refleted ray are meeting/intersecting at a point on the principal axis of the mirror.This point is called the principal focus of the concave mirror
In front of the mirror
YES u can