its not, it is observed differently by all observers.
Albert Einstein
No; the Special Theory of Relativity shows that measurements of space and time can vary, depending on the observer (if two observers move at different velocities). The General Theory of Relativity introduces additional differences that may depend on the observer.
time,action,space,matter,life
Assuming this is a fill in the blank question, relativity undermined the view that time and space were absolute.
Alfred A. Robb has written: 'The absolute relations of time and space' -- subject(s): Accessible book, Relativity (Physics), Space and time, Relativity
No, the temprature in space is roughly -270°C whereas Absolute zero would be −273.15°C. At the point of Absolute zero molecules, themselves, stop moving.It's close, but not absolute.
nonexistent
THEORETICALLY: An absolute vacuum has no mass contained. In empty space there is no mass, so an absolute vacuum is empty space and empty space is an absolute vacuum. There is no difference. Although, there may be energy passing through the empty space or vacuum in the form of electromagnetic waves, or gravitational or magnetic fields.
Einstein's theories of relativity revolutionized contemporary thought by challenging traditional notions of space, time, and gravity. They provided a new framework for understanding the universe, leading to important advancements in physics, cosmology, and philosophy. Einstein's work paved the way for innovations such as GPS technology and the study of black holes.
Absolute time identifies the actual date of an event.
No Absolute Time was created in 1992-12.