400 to 700 nm because white light is the mixture of all 7 coloured lights.
Light interacts with objects in different ways depending on their properties. Transparent objects allow light to pass through them, while opaque objects block light from passing through. Reflective objects bounce light off their surface, while refractive objects bend and change the direction of light as it passes through. The color and material of an object also affect how it interacts with light.
The wavelength of red light is typically between 620 to 750 nanometers. wavelengths.
A white object will reflect the white light. (that's why we perceive the object to be white).
BlackAll of the colours that make the white light shine down on the black object and all of the colours that make the white light the light absorbs into the object and no light reflects.WhiteAll of the colours that make the white light shine down on the white object and the light and no light is absorbed into the object but all of the colours that make the white light are reflected into your eyes
The color white is not associated with a specific wavelength of light because white light is a combination of all visible wavelengths of light.
black
It is, but you have to use an red, blue and green laser. White light is a mixture of different wavelenght's en thus cannot be created with a single laser
Neither the amplitude nor the speed does.
Visible light. The higher the frequency, the shorter the wavelength.
Energy,E=h*c/Wavelength h is Planks const.,c is velocity of light
very roughly 350 to 750 nanometers
wavelength = velocity / frequency
Light interacts with objects in different ways depending on their properties. Transparent objects allow light to pass through them, while opaque objects block light from passing through. Reflective objects bounce light off their surface, while refractive objects bend and change the direction of light as it passes through. The color and material of an object also affect how it interacts with light.
Green light typically has a wavelength within the region of 495-570 nm
The wavelength of red light is typically between 620 to 750 nanometers. wavelengths.
Nobody. The black light is a trivial name for ultraviolet radiation which human eyes don't respond to. (shorter wavelenght than blue)
The Wavelenght of microwaves is between 1m to 1mm, the visible light has a wavelength of ca 350nm-750nm. A Short wavelenght means a high frequency and fequency indicates a high energylevel. Therefore Micorwaves have a verylow energy, comparet with the normal light. So: It is harmless! Neramo