new6ton said:
You have a point. Infrared is related to heat (as in thermal imagers). But is infrared the sole contributor of heat and not visible light. What nanometers in wavelength are involved in the heat of normal objects?
No, IR is not the sole contributor of heat, but it makes up a significant portion of the incoming solar radiation. In reality, all wavelengths contribute to thermal heating. This includes UV and visible light.
new6ton said:
What is the explanation where some tints were dark looking at daytime yet at night is clearer?
The only way that I know of is to make your tint out of something that automatically darkens when exposed to bright light, and goes clear when that light is missing. Like the tint in eyeglasses that darken when you go outside and lighten when you come back in.
new6ton said:
Tint 1 is darker at daytime compared to Tint 2 as you can clearly see. But at nightime. The scenes or brightness outside look the same. One expects Tint 1 to be darker at night. So why are they similar at night?
Tints and other filters usually work by blocking out a percentage of the incoming light, regardless of the intensity of the light source. So both the Sun and a streetlight may be cut down by, say, 50%. However, at night, your light sources are generally MUCH dimmer than the Sun. If one tint cuts down the light by 50% and another by 40%, then that difference may not be noticeable because the light sources are already so dim.
Imagine you're holding two weights, one in each hand. One is 100 lbs and one is 50 lbs. You can clearly tell that the 100 lb weight is the heavier one. However, if we reduce the weights to, say, 1/10 lb and 1/20 lb, it becomes very difficult to tell which weight is heavier because the absolute difference between them is very small even though the larger weight is twice as heavy as the smaller in both cases.
The same might be true for your tints. The light sources at night are already so dim that both tints may seem to be similar, even though one tint might be 10% darker than another. But that's mostly a guess on my part.