black since the object is blue, it reflects only blue light thus, shining red and green lights on it will only cause the object to absorb the two colors and it will result to the appearance of the object as black
If it didn't reflect blue, then there wouldn't be any blue light from it to enter your eye,and you wouldn't see any blue.If the object looks blue, then you know two things:1). There was some blue light hitting the object.2). The blue light hitting the object wasn't all absorbed. At leastsome of it was reflected from the object, toward your eye.
the colorful spectrum comes into place known as Roy G. Biv. red orange yellow green blue indigo and violet
the two things that determine the color of a light wave are its wavelength and the material it reflects from.
generally speaking things appears the colors that they do because of two things, the way our eyes and brain perceive them and the way the object absorbs and reflects different wavelengths of the light spectrum. our minds interpret the light spectrum as the colors red, orange, yellow, green, blue indigo and violet and any combination of these colors. when light strikes an object, the object absorbs and reflects light waves, for instance if an object appears red to you, it's because the surface of the object absorbs all the other light wavelengths except red, which bounces back to our eye and causes the object to appear red. strangely enough, when all colors of the light spectrum are bounced back to us, we perceive the object to be white and when none of the colors are reflected, we perceive the object to be black!
black since the object is blue, it reflects only blue light thus, shining red and green lights on it will only cause the object to absorb the two colors and it will result to the appearance of the object as black
If it didn't reflect blue, then there wouldn't be any blue light from it to enter your eye,and you wouldn't see any blue.If the object looks blue, then you know two things:1). There was some blue light hitting the object.2). The blue light hitting the object wasn't all absorbed. At leastsome of it was reflected from the object, toward your eye.
generally speaking things appears the colors that they do because of two things, the way our eyes and brain perceive them and the way the object absorbs and reflects different wavelengths of the light spectrum. our minds interpret the light spectrum as the colors red, orange, yellow, green, blue indigo and violet and any combination of these colors. when light strikes an object, the object absorbs and reflects light waves, for instance if an object appears red to you, it's because the surface of the object absorbs all the other light wavelengths except red, which bounces back to our eye and causes the object to appear red. strangely enough, when all colors of the light spectrum are bounced back to us, we perceive the object to be white and when none of the colors are reflected, we perceive the object to be black!
the colorful spectrum comes into place known as Roy G. Biv. red orange yellow green blue indigo and violet
the two things that determine the color of a light wave are its wavelength and the material it reflects from.
It reflects light from the Sun and it has different phases.
generally speaking things appears the colors that they do because of two things, the way our eyes and brain perceive them and the way the object absorbs and reflects different wavelengths of the light spectrum. our minds interpret the light spectrum as the colors red, orange, yellow, green, blue indigo and violet and any combination of these colors. when light strikes an object, the object absorbs and reflects light waves, for instance if an object appears red to you, it's because the surface of the object absorbs all the other light wavelengths except red, which bounces back to our eye and causes the object to appear red. strangely enough, when all colors of the light spectrum are bounced back to us, we perceive the object to be white and when none of the colors are reflected, we perceive the object to be black!
The angle of incidence is equal to the angle of reflection.
Because a shadow forms behind an object when a light source shines on it. This happens because the object is solid and light can not travel through the solid object. The light that travels around the object reflects back up and the area that is not reflecting looks darker. That's why! Did this help you?
When there is two light soucres near the object
Lights enters your eyes directly from a light source or it reflects off other objects
We see objects in colour for two reasons. 1. The objects only reflects certain wavelengths (colours) and absorbs the rest this is due to the bonds in the object, bonds absorbed specific wavelengths of light. 2. When these reflected waves enter out eyes they hit cones at the back of our eye which translates these wave/photons of light into an image we can see.