The green object will appear black because red light is absorbed by green objects.
When white light strikes a green opaque object, the object absorbs all colors of light except green. Green light is reflected off the object and that is what our eyes perceive as the color of the object.
What an object is made of and the color light strikes it determine the object's visible color. The object's material composition affects how it interacts with light, leading to the absorption and reflection of certain colors. When light strikes an object, the object absorbs some wavelengths of light and reflects others, which our eyes perceive as color.
A green object under green light would appear its original color and shade of green. When an object is illuminated by light of the same color, no new colors are absorbed or reflected, resulting in the object appearing unchanged.
If an object is white in sunlight it will be green in green light. A white object reflects all wavelengths (colors) of light that shine on it. If only green light shines on it, that color will be reflected and the object will look green.
A green object absorbs all colors of light except green. Green light is reflected by the object and that is why we perceive it as green.
When white light strikes a green opaque object, the object absorbs all colors of light except green. Green light is reflected off the object and that is what our eyes perceive as the color of the object.
What an object is made of and the color light strikes it determine the object's visible color. The object's material composition affects how it interacts with light, leading to the absorption and reflection of certain colors. When light strikes an object, the object absorbs some wavelengths of light and reflects others, which our eyes perceive as color.
The apparent color of the object.
The apparent color of the object.
Visible light interacts with an object by either being absorbed, transmitted, or reflected. The color of the object is determined by the wavelengths of light that are reflected off its surface. When light is absorbed, it can cause the object to heat up. Transmitted light passes through the object without being absorbed or reflected.
A green object under green light would appear its original color and shade of green. When an object is illuminated by light of the same color, no new colors are absorbed or reflected, resulting in the object appearing unchanged.
If an object is white in sunlight it will be green in green light. A white object reflects all wavelengths (colors) of light that shine on it. If only green light shines on it, that color will be reflected and the object will look green.
A green object absorbs all colors of light except green. Green light is reflected by the object and that is why we perceive it as green.
Yes, when light strikes an object, it can either be reflected (bounced off) or absorbed (taken in by the object). The amount of light that is reflected or absorbed depends on the properties of the object, such as its color and material.
A green object appears green because it reflects green light and absorbs all other colors present in white light. When white light strikes the object, the green component is absorbed and the rest is reflected back to our eyes, creating the perception of green color.
When light strikes an opaque object, the light is either absorbed, transmitted, or reflected. The object appears to be a certain color because it reflects certain wavelengths of light and absorbs the rest.
The object's material composition and the color of light that strikes it determine the object's appearance or color to an observer. The object reflects or absorbs specific wavelengths of light based on its material properties, influencing how it appears in different lighting conditions.