Cardboard is not a reflective material. It is typically rough and absorbs light rather than reflecting it.
If light strikes cardboard, the cardboard will absorb some of the light and reflect the rest. The color and thickness of the cardboard will affect how much light is absorbed or reflected.
Black cardboard absorbs light and does not reflect it, so when a beam of light hits it, the cardboard appears black as it does not transmit any significant amount of light. This results in a dimmer or no reflection of the beam of light off the black cardboard.
White light is made up of a spectrum of colors ranging from red to violet. When white light passes through the cardboard, certain colors may be absorbed while others are transmitted. The color that passes through the cardboard depends on the properties of the material and its ability to absorb or reflect certain wavelengths of light.
Cardboard is an opaque material, meaning it does not allow light to pass through. Reflection occurs when light bounces off a surface, but since cardboard does not transmit light, there is no surface for light to bounce off of in order to create a reflection.
White surfaces reflect light and heat. Black surfaces do not reflect light and they absorb heat.White surfaces reflect light and heat. Black surfaces do not reflect light and they absorb heat.White surfaces reflect light and heat. Black surfaces do not reflect light and they absorb heat.White surfaces reflect light and heat. Black surfaces do not reflect light and they absorb heat.
If light strikes cardboard, the cardboard will absorb some of the light and reflect the rest. The color and thickness of the cardboard will affect how much light is absorbed or reflected.
Black cardboard absorbs light and does not reflect it, so when a beam of light hits it, the cardboard appears black as it does not transmit any significant amount of light. This results in a dimmer or no reflection of the beam of light off the black cardboard.
White light is made up of a spectrum of colors ranging from red to violet. When white light passes through the cardboard, certain colors may be absorbed while others are transmitted. The color that passes through the cardboard depends on the properties of the material and its ability to absorb or reflect certain wavelengths of light.
It acts as a diffuser for light, not so much reflect, use "bounce cards" a white peice or cardboard or thick paper.
It moved quickly coz the cardboard is light
It moved quickly coz the cardboard is light
Telescope reflect light
It moved quickly coz the cardboard is light
It moved quickly because cardboard is light.
Cardboard is an opaque material, meaning it does not allow light to pass through. Reflection occurs when light bounces off a surface, but since cardboard does not transmit light, there is no surface for light to bounce off of in order to create a reflection.
Mirrors reflect whether there is anything to reflect at the minute. Beside light they can also reflect heat radiation.
White surfaces reflect light and heat. Black surfaces do not reflect light and they absorb heat.White surfaces reflect light and heat. Black surfaces do not reflect light and they absorb heat.White surfaces reflect light and heat. Black surfaces do not reflect light and they absorb heat.White surfaces reflect light and heat. Black surfaces do not reflect light and they absorb heat.