Maksim A. Burakhovich absolute time: since time is relative where on Earth time goes slower than in space since gravitational field slows time down, i guess we could designate absolute time as time at the center of mass of the heaviest object in the Universe that's not a black hole or where the difference in mass between that object and the litest black hole in terms of mass in the Universe is infinitesimal.
The Celsius scale is not absolute. It has no absolute value.
First, simplify the equation: absolute (3x-1) = absolute (x+5) absolute (2x) = absolute (6) absolute (x) = absolute (3) which really means plus or minus 3, or, (+/-3) Now you have x = +/- 3, so test out x = 3 and x = -3. Test out x = 3: absolute (3*3-1) = absolute (3+5) absolute (9-1) = absolute (8) ---> absolute 8 = absolute 8 --> 8=8 which is correct! Now test x = -3 absolute (3*(-3)-1) = absolute (-3+5) ---> absolute (-9-1) = absolute (2) absolute (-10) = absolute 2 ---> 10 = 2 Since 10 does not equal 2, this is not a correct answer. Therefore x = 3.
Absolute 4 is 4. The question is now "what is 4-8b absolute = 12. There is an "absolute" here operating on nothing. This is still true if you mean absolute(4-8b) absolute =12 so the question cannot be interpreted.
The age of absolute
Fomalhaut b was created in 2008.
Fomalhaut is the brightest star in the constellation Piscis Austrinus.It has a spectral type of A so has a colour of white.
The distance of Fomalhaut from the solar system is listed as 25.1 light-years.That's something like 1.6 million times the distance from the earth to the sun !
Fomalhaut has a declination of almost -30° (30° south), so it can be seen - at least in theory - at latitude 60° north, or anywhere south of that.
An absolute unit is a unit which can be exactly defined in terms of mass, length, or time.
NO We can think of temperature as mass with a speed. No mass no temperature, no speed, no temperature. Therefore, if mass went to absolute zero, it would have no speed and could not oscillate (emit energy) in the first place. So most agree that no mass can go to absolute rest in the first place.
It is the smallest particle
Mass and age.
not very heavy
Aldebaran (the star 4 spring)Regulus (summer)Antares(autumn)Fomalhaut (winter)
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.
the larger the mass of the star, the more luminous it is.