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An emitter of blue light shining on/through a red filter.The red filter appears red because it block all light except red. So trying to shine blue through it should attenuate the blue heavily. Only red can pass through the red filter easily.
If you pass white light through a blue filter, only the blue wavelengths will pass through, resulting in a blue light. If you then pass this blue light through a red filter, none of the blue light will pass through, and you would not see anything as there would be no red wavelengths to transmit.
A red filter absorbs green and blue light, allowing only red light to pass through.
A transparent red object would transmit red light while absorbing other colors of light.
A red filter allows red light to pass through, while absorbing or blocking other colors of light. This property is based on the filter's ability to selectively transmit certain wavelengths of light while absorbing others.
An emitter of blue light shining on/through a red filter.The red filter appears red because it block all light except red. So trying to shine blue through it should attenuate the blue heavily. Only red can pass through the red filter easily.
If you pass white light through a blue filter, only the blue wavelengths will pass through, resulting in a blue light. If you then pass this blue light through a red filter, none of the blue light will pass through, and you would not see anything as there would be no red wavelengths to transmit.
no
All wavelengths of other colors of visible light are absorbed, only the wavelengths of red light will pass thru the glass.
A red filter absorbs green and blue light, allowing only red light to pass through.
A transparent red object would transmit red light while absorbing other colors of light.
traffic light cameras are camerashat take pics of peoples cars when they pass the streets when its red light
No
A red filter allows red light to pass through, while absorbing or blocking other colors of light. This property is based on the filter's ability to selectively transmit certain wavelengths of light while absorbing others.
They appear red and absorb all the other colours.
When white light passes through a purple filter, the filter will absorb most colors of the white light except for purple, allowing only purple light to pass through. When this filtered purple light then passes through a red filter, the red filter will absorb all colors except for red, thus only allowing red light to pass through. Therefore, you would see red light.
In a real case the blue filter will pass a little red and the red filter would pass a little of blue, so you'd see a faint purple light.The blue filter will remove all the frequencies except blue. The red filter will remove all the colors except red. So it removes the blue, leaving nothing.Filters are seldom that good. Most filters have a curved response with maximum filtering at one color and less filtering on other colors.