As you move closer to a convex mirror, your image will appear smaller and more upright. The image will also move further away from the mirror.
Convex mirrors are used as vigilance mirrors in departmental stores because they provide a wide field of view, allowing staff to monitor a larger area without having to physically move around. The convex shape of the mirror also helps to eliminate blind spots and provides a distorted, but comprehensive view of the surroundings, making it easier to detect any suspicious activity or theft.
When you bring the flashlight closer to the concave mirror, the image will also move closer to the mirror. The size of the image will increase as the flashlight gets closer to the mirror.
As you move closer to a plane mirror, the size of your image remains the same but it appears closer to the mirror. The image in the mirror also appears to get brighter and more detailed as you move closer.
As you move closer to a concave mirror, the size of the image increases. The image also appears more magnified and may become distorted if you move too close. Additionally, the image distance will decrease as you move closer to the mirror.
As you move closer to a plane mirror, your image in the mirror appears larger and more detailed. The image is a reflection of yourself, so the closer you get to the mirror, the more of your features and details are visible in the reflection.
Convex mirrors are used as vigilance mirrors in departmental stores because they provide a wide field of view, allowing staff to monitor a larger area without having to physically move around. The convex shape of the mirror also helps to eliminate blind spots and provides a distorted, but comprehensive view of the surroundings, making it easier to detect any suspicious activity or theft.
When you bring the flashlight closer to the concave mirror, the image will also move closer to the mirror. The size of the image will increase as the flashlight gets closer to the mirror.
As you move closer to a plane mirror, the size of your image remains the same but it appears closer to the mirror. The image in the mirror also appears to get brighter and more detailed as you move closer.
As you move closer to a concave mirror, the size of the image increases. The image also appears more magnified and may become distorted if you move too close. Additionally, the image distance will decrease as you move closer to the mirror.
As you move closer to a plane mirror, your image in the mirror appears larger and more detailed. The image is a reflection of yourself, so the closer you get to the mirror, the more of your features and details are visible in the reflection.
If an image moves closer to a plane mirror, the distance between the object and the mirror stays the same while the image moves towards the mirror. As the image gets closer to the mirror, it appears to move further away from the viewer. The size of the image remains the same, but its apparent distance changes.
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.
The image get bigger
If the object is moved closer to a convex lens, the image distance will decrease and the image will move closer to the lens. The image size may increase depending on the object distance and object size relative to the focal length of the lens.
ShapeConcave mirrors curve inward, creating a focal point in front of the mirror. Convex mirrors curve outward creating a focal point behind the mirror.Concave ImageBecause of their shape and focal point placement, images in concave mirrors appear upside down and far away. However, when you move closer, the object enlarges. If you get close enough, the object enlarges more and the image is right-side up.Convex ImageIn a convex mirror, images appear right-side up, shrunken and virtual, or placed somewhere behind the mirror.
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 bulb will get brighter