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The image is upright and magnified/enlarged.
When a concave mirror is held far away from an object, the reflected image appears smaller, inverted, and closer to the focal point of the mirror. The image will be diminished in size and can eventually converge to the focal point of the mirror as the distance between the mirror and the object increases.
When an object is placed closer to a concave mirror than its focal length, the image formed is virtual, upright, and magnified. The image is located behind the mirror, and the rays of light appear to diverge from a point behind the mirror rather than converging at a real focal point.
When you bring the flashlight closer to the concave mirror, the image will appear larger and move further away from the mirror. This is due to the mirror reflecting light rays that converge at a point further away from the mirror as the object (flashlight) gets closer to it.
If the object is moved away from a concave mirror, the image will move closer to the mirror and eventually transition from a real inverted image to a virtual upright image. The image will also become larger and eventually disappear as the object moves beyond the focal point of the mirror.
The image is upright and magnified/enlarged.
When a concave mirror is held far away from an object, the reflected image appears smaller, inverted, and closer to the focal point of the mirror. The image will be diminished in size and can eventually converge to the focal point of the mirror as the distance between the mirror and the object increases.
When an object is placed closer to a concave mirror than its focal length, the image formed is virtual, upright, and magnified. The image is located behind the mirror, and the rays of light appear to diverge from a point behind the mirror rather than converging at a real focal point.
the image will always be located somewhere on the opposite side of the mirror.
When you bring the flashlight closer to the concave mirror, the image will appear larger and move further away from the mirror. This is due to the mirror reflecting light rays that converge at a point further away from the mirror as the object (flashlight) gets closer to it.
If the object is moved away from a concave mirror, the image will move closer to the mirror and eventually transition from a real inverted image to a virtual upright image. The image will also become larger and eventually disappear as the object moves beyond the focal point of the mirror.
The image formed is real, inverted, diminished and on the same side of the mirror as the object is.
This would be a mirror with when you look at it, the center of the mirror is deeper than the sides surrounding the center. convex would be the opposite with the center closer to you than the sides.
the image will always be located somewhere on the opposite side of the mirror.
Yes, a concave mirror can show a laterally inverted image. This means that the left side of the object appears on the right side of the image and vice versa. This is due to the reflection properties of concave mirrors.
Yes, the image in a concave mirror can be larger than the object if the object is placed between the focus and the mirror. This creates a virtual, magnified image.
Distance from the mirror, curvature of the mirror.