Light determine an object's by the wavelength of light that reach to your eyes.light can reach your eyes after being reflected by an object,transmitted through an object,or emitted by an object.When your eyes receive the light,they send signals to your brain.Your brain interprets the signals as colors.
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 material an object is made of and the color of light it reflects can determine how hot an object gets when it is left out in the sun. Color and material both affect the amount of heat an object will absorb.
The color of a translucent material is determined by the specific wavelengths of light that are transmitted through it while others are absorbed or scattered. The material's chemical composition and structure influence how it interacts with light, which in turn affects the perceived color when light passes through it. Spectrophotometry or examining the material under various lighting conditions can help determine its color properties.
The color of an object is determined by the wavelengths of light that it reflects. When light shines on an object, certain wavelengths are absorbed and others are reflected, and it is these reflected wavelengths that determine the color that our eyes perceive.
Yes, the color of an object can depend on the light it reflects. Objects appear to have color because they reflect certain wavelengths of light while absorbing others. The specific wavelengths that are reflected determine the color we perceive.
The apparent color of the object.
The apparent color of the object.
the wavelength of the reflected light :)
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.
Frequency can be found in sound, light, and line current. An example of frequency is, the frequency wave of light will determine what color the light is.
The material an object is made of and the color of light it reflects can determine how hot an object gets when it is left out in the sun. Color and material both affect the amount of heat an object will absorb.
The color of a translucent material is determined by the specific wavelengths of light that are transmitted through it while others are absorbed or scattered. The material's chemical composition and structure influence how it interacts with light, which in turn affects the perceived color when light passes through it. Spectrophotometry or examining the material under various lighting conditions can help determine its color properties.
The color of an object is determined by the wavelengths of light that it reflects. When light shines on an object, certain wavelengths are absorbed and others are reflected, and it is these reflected wavelengths that determine the color that our eyes perceive.
Yes, the color of an object can depend on the light it reflects. Objects appear to have color because they reflect certain wavelengths of light while absorbing others. The specific wavelengths that are reflected determine the color we perceive.
reflects back to our eyes. When light hits an object, some wavelengths are absorbed and some are reflected. The wavelengths that are reflected determine the color we see.
Yes, light wave frequencies determine the color you see. Different frequencies of light waves correspond to different colors in the visible spectrum that our eyes can perceive. For example, red light has a lower frequency and longer wavelength, while blue light has a higher frequency and shorter wavelength.
The wavelength of the light wave determines its color, with longer wavelengths appearing red and shorter wavelengths appearing violet. Additionally, the frequency of the light wave also plays a role, where higher frequencies correspond to bluer hues and lower frequencies to redder hues.