The distance the light pulse travels from the lamp to the detector from the perspective of observer 1 compare to that from the perspective of observer 2 is the light pulse travels farther from the point of view of observer 2.
The rate of mild traveling through a vacuum is exactly 299,792,458 meters (983,571,056 ft) per 2d. it is about 186,282 miles per second — a common steady recognized in equations as "c," or mild speed.
The light 2nd is a unit of length beneficial in astronomy, telecommunications, and relativistic physics. Its miles are described as the distance that light travels in loose space in a single 2d, and is equal to exactly 299,792,458 meters.
Nope! mild is a self-perpetuating electromagnetic wave; the strength of the wave can get weaker with the space it travels, but as long as nothing absorbs it, it'll hold on propagating for all time.
Learn more about the distance of light here https://brainly.com/question/8910249
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The distance the light pulse travels from the lamp to the detector from the perspective of observer 1 compare to that from the perspective of observer 2 is the light pulse travels farther from the point of view of observer 2.
The rate of mild traveling through a vacuum is exactly 299,792,458 meters (983,571,056 ft) per 2d. it is about 186,282 miles per second — a common steady recognized in equations as "c," or mild speed.
The light 2nd is a unit of length beneficial in astronomy, telecommunications, and relativistic physics. Its miles are described as the distance that light travels in loose space in a single 2d, and is equal to exactly 299,792,458 meters.
Nope! mild is a self-perpetuating electromagnetic wave; the strength of the wave can get weaker with the space it travels, but as long as nothing absorbs it, it'll hold on propagating for all time.
Learn more about the distance of light here brainly.com/question/8910249
#SPJ4
