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∙ 7y agoWhen 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.
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.
A flashlight typically uses a concave mirror to focus and direct light forward. The concave shape allows the mirror to gather and reflect light beams in a more concentrated and directional manner.
A concave mirror is typically found around the bulb of a flashlight. This type of mirror reflects and focuses the light rays to provide a more concentrated beam of light.
Answer #1:No, the concave mirror in a flashlight produces light rays that do notconvergebecause concave mirrors reflect light waves to form images, but concave mirrorshave a surface that is curved inward.==============================Answer #2:The ideas behind the concave reflector in a cheap flashlight, the concave reflectorin an auto headlight, and the giant concave reflector of a satellite uplink, are allthe same ... to beam the energy from the focus out in a parallel 'cylindrical' beamthat doesn't converge or, as far as possible, doesn't diverge either.
The location where light rays meet after reflecting from a concave mirror is called the 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.
A flashlight typically uses a concave mirror to focus and direct light forward. The concave shape allows the mirror to gather and reflect light beams in a more concentrated and directional manner.
A concave mirror is typically found around the bulb of a flashlight. This type of mirror reflects and focuses the light rays to provide a more concentrated beam of light.
Answer #1:No, the concave mirror in a flashlight produces light rays that do notconvergebecause concave mirrors reflect light waves to form images, but concave mirrorshave a surface that is curved inward.==============================Answer #2:The ideas behind the concave reflector in a cheap flashlight, the concave reflectorin an auto headlight, and the giant concave reflector of a satellite uplink, are allthe same ... to beam the energy from the focus out in a parallel 'cylindrical' beamthat doesn't converge or, as far as possible, doesn't diverge either.
It concentrates the light so it penetrate the farthest distance.
The location where light rays meet after reflecting from a concave mirror is called the focal point.
It converges.
no concave mirror is in shape of concave mirror
why do we use concave mirror as converging mirror
At the focal point of the mirror, a concave mirror will not produce a real image. This is because at the focal point, the reflected rays are parallel and do not converge to form a real image.
The concave mirror helps to reflect and concentrate the light emitted by the bulb in a flashlight. It directs the light forward in a more focused beam, increasing the brightness and distance of the light projected by the flashlight.
As the curvature of a concave mirror is increased, the focal length decreases. This means that the mirror will converge light rays to a focal point at a shorter distance from the mirror. The mirror will have a stronger focusing ability.