by getting boners.
They'll leave your car at the speed of light, and when that light passes anybody, they'll measure the speed of the light as it passes them to be the speed of light.
In 1600 Galileo attempted to measure the speed of light using lanterns and shutters
Are you asking when the speed of light was first estimated, or are you asking when the speed of light was first actually measured?
speed of light is constant velocity and does not accelerate so there is no g force
That all depends what color it was when it left the source. Whatever wavelength it had at the source, if it's approaching you, you'll measure a shorter wavelength (higher frequency) as it passes you. But don't forget that regardless of the speed or direction of the source, you'll measure the light passing you at the 'speed of light' ... no more or less.
Roemer was the first to measure the speed of light.
Light years
They'll leave your car at the speed of light, and when that light passes anybody, they'll measure the speed of the light as it passes them to be the speed of light.
yes it does
The Danish astronomer Olaus Roemer was the first to measure the speed of light. (within 25 % of the actual value)
In 1600 Galileo attempted to measure the speed of light using lanterns and shutters
Roughly speaking, light moves about a million times faster than sound in air.
Light is faster because speed does not move. Speed is a measure of the rate of movement but, in itself, it does not move - at all!
Light travels at about 186,000 miles per second
The speed of light isn't a distance so it has no length it is a measure of speed, which is roughly 186000 miles per second.
It doesn't work that way. The light-year is not used to measure the speed of light. It works the other way round: First, the speed of light is determined through other methods, then the distance called a light-year is calculated based on that measurements.
The speed of light is always the same, as long as the light stays in vacuum or in the material substance it's in. The speed of the source generating the light, or the speed of the person who's measuring the light, has no effect on the light's speed. It will always measure the same number. That means: -- If a rocket is in space, flying toward you at half the speed of light, and the astronaut aboard shines a flashlight at you, and -- If you strap a jet-pack on your back and fly toward the rocket at half the speed of light, and -- If you measure the speed of the light from his flashlight as it shines past you, -- You'll measure the same speed of light as if you and the astronaut were both standing still. It can't be . . . But it is. It's been confirmed in thousands of experiments during the past 100 years.