Physics Asked by Sagar Patil on March 21, 2021
Let’s say there is a cube in deep space. There is no light or force being applied to the cube. Is it possible to know if the cube exists in this scenario?
Sorry if the question seems too simplistic. I was just curious if scientists had non-invasive ways of knowing an object exists.
Bodies radiate EM waves as a function of its temperature. So, if the cube is above 0 K, its presence can theoretically be detected.
Correct answer by Claudio Saspinski on March 21, 2021
There is no light or force being applied to the cube
If the cube is in our universe, there is always the force of gravity of the nearest neighbors, within Newtonian gravity. That was the way General Relativity was established as necessary to describe the solar system. There were outer planets that did not fit the orbital solutions expected , and this made proposals for extra planets to explain the observed orbits. GR with the curvature of space made these solutions irrelevant.
The above logic is carried over in the study of the rotational curves of galaxies where dark matter is postulated to explain them, the extreme of "I was just curious if scientists had non-invasive ways of knowing an object exists.".
For you cube example, its mass is too small to affect orbits so it would be invisible even in newtonian gravity.
Answered by anna v on March 21, 2021
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