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What else can I help you with?
Which property is used in shaving mirror?
The property used in a shaving mirror is reflection. The mirror reflects light rays in a way that allows you to see a clear and magnified reflection of your face when you are shaving.
True or false the property of light that allows you to see yourself in a mirror is reflection?
True. The property of light that allows you to see yourself in a mirror is reflection. When light hits a smooth surface like a mirror, it bounces off at the same angle it hits the surface, enabling you to see your reflection.
Why does light bounces off a mirror and goes into your eyes?
Light bounces off a mirror due to the reflection property; the angle of incidence is equal to the angle of reflection. When you look at a mirror, the light reflected from the mirror's surface travels into your eyes, allowing you to see the image of yourself or objects in front of the mirror.
What happened when light strikes at the mirror?
it reflects of the mirror. a very small part of light is absorbed by the mirror a rest of it is reflected back in the same medium . following the 1st law of reflection , a ray of light falling on a mirror is reflected back making an equal with the "Imaginery normal to the point of incidence."
When light hits a mirror?
When light hits a mirror, it usually bounces off it.
Which property is used in shaving mirror?
The property used in a shaving mirror is reflection. The mirror reflects light rays in a way that allows you to see a clear and magnified reflection of your face when you are shaving.
True or false the property of light that allows you to see yourself in a mirror is reflection?
True. The property of light that allows you to see yourself in a mirror is reflection. When light hits a smooth surface like a mirror, it bounces off at the same angle it hits the surface, enabling you to see your reflection.
When moon reflects the light falling on it from the sun is the reflection regular or diffused?
You mean the reflection is so equivalent to mirror reflection. No chance. It is only diffused
Why does light bounces off a mirror and goes into your eyes?
Light bounces off a mirror due to the reflection property; the angle of incidence is equal to the angle of reflection. When you look at a mirror, the light reflected from the mirror's surface travels into your eyes, allowing you to see the image of yourself or objects in front of the mirror.
What happened when light strikes at the mirror?
it reflects of the mirror. a very small part of light is absorbed by the mirror a rest of it is reflected back in the same medium . following the 1st law of reflection , a ray of light falling on a mirror is reflected back making an equal with the "Imaginery normal to the point of incidence."
Does color of a mirror affect its reflection of light?
No, the color of a mirror does not affect it's reflection of light.
When light hits a mirror?
When light hits a mirror, it usually bounces off it.
What happens when light from a torch hits a mirror?
When light from a torch hits a mirror, most of the light gets reflected back in a predictable manner due to the smooth surface of the mirror. The angle of incidence (angle at which the light hits the mirror) equals the angle of reflection (angle at which the light bounces off the mirror). This reflection of light allows us to see our reflection in the mirror.
What are light rays that strike a mirror?
Light rays that strike a mirror are reflected according to the law of reflection, where the angle of incidence is equal to the angle of reflection. This is what allows us to see our reflection in a mirror.
Does your mirror reflection take up space?
No, your mirror reflection does not occupy physical space. It is simply a reflection of light bouncing off the mirror's surface.
Example of evidence that frequency of light does not change upon reflection?
When light is reflected off a mirror, the frequency of the light does not change because reflection is a process that does not alter the properties of the light wave. The frequency of light corresponds to its color, and when we see our reflection in a mirror, we observe the same color that was emitted towards the mirror.
What kind of mirror do you have if reflected rays of light pass through the principle focus when light hits a mirror parallel to the principle axis?
The mirror is a concave mirror. This behavior is a property of concave mirrors, where parallel rays of light are reflected and converge at the principal focus after reflection.
