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∙ 12y agoWhen you hold an object far away from a concave mirror, the mirror will produce a real image that is inverted and smaller than the object. The image will be formed at the mirror's focal point.
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.
When the object is far away from a concave mirror, the image formed is real, inverted, and highly magnified. This image is formed at the focal point 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.
Yes, when an object is placed less than one focal point away from a concave mirror, it will appear larger and magnified. This is due to the virtual image formed by the concave mirror that appears on the same side as the object.
When a concave mirror is far away, it forms a real and inverted image. The image will be smaller than the object and located at the focal point of the mirror on the same side as the object.
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.
When the object is far away from a concave mirror, the image formed is real, inverted, and highly magnified. This image is formed at the focal point 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.
Yes, when an object is placed less than one focal point away from a concave mirror, it will appear larger and magnified. This is due to the virtual image formed by the concave mirror that appears on the same side as the object.
When a concave mirror is far away, it forms a real and inverted image. The image will be smaller than the object and located at the focal point of the mirror on the same side as the object.
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 a small object is placed on the principal axis of a concave mirror between the focus and the mirror, a virtual and upright image is formed behind the mirror. The image is magnified and located further away from the mirror than the object.
The object must be placed at a distance equal to the radius of curvature of the concave mirror in order for its image to be at infinity. In this case, the object must be placed 28.6 cm away from the concave mirror.
When you move your face away from a concave mirror, the image you see in the mirror will become smaller and eventually disappear as you move further away from the focal point of the mirror. This is because the magnification effect of the concave mirror is strongest when objects are close to the mirror's focal point.
A concave mirror bulges away from the incident light. The image of an object depends on where exactly the object is placed - relative the to focal length of the mirror. See the attached link for more details.
A concave mirror has edges that curve away from the object. Concave mirrors are designed to converge light rays towards a focal point, making them useful for applications such as focusing light in reflecting telescopes or as shaving mirrors.
You can identify a plane mirror by its flat reflective surface that produces a virtual, upright, and laterally inverted image. A convex mirror bulges outward and produces a smaller, upright, and virtual image. A concave mirror curves inward and can create a bigger, inverted, and real image. By observing the reflected image characteristics without touching the mirrors, you can distinguish between them.