no due to difference of mass. see effect of gravity/velocity on time
I only know of two constants in the universe. One is time which is an invariable constant and change which is a variable constant.
There is no known principle that allows mass/energy to be created or destroyed. Theoretically, the total amount of mass/energy in the universe must remain constant. Note: the ability to derive work from energy depends on irregularities in the distribution of mass/energy throughout a volume. As entropy increases, mass/energy will dissipate throughout a given volume, and the ability of that energy to produce meaningful work diminish.
It is normally believed that the Universe's total mass remains constant.
That's true throughout any period of time during which the acceleration is constant.
Mass.
I only know of two constants in the universe. One is time which is an invariable constant and change which is a variable constant.
The Steady State theory states that matter is produced in the universe at a continuous rate, so that the universe stays constant throughout space and time. It is no longer an accepted theory in much of the scientific community.
I think that g (the gravitational constant) varies dependent on your proximity to other massive bodies. For example the value of g on the moon is less than the value of g on earth. It is not constant throughout the universe.
As far as I understand, the projected age of the universe is about 99.5% of the estimated "Hubble time". The age is projected by applying a correction factor to the inverse Hubble constant. The correction factor applied depends on the value of the cosmological constant. The constant is derived from WMAP observation data, and valued at 0.976. For a flat universe without cosmological constant, the value would have been 0.666, resulting in a projected age 66.6% of the Hubble time.
All the time. Organic molecules are common throughout the universe.
There is no known principle that allows mass/energy to be created or destroyed. Theoretically, the total amount of mass/energy in the universe must remain constant. Note: the ability to derive work from energy depends on irregularities in the distribution of mass/energy throughout a volume. As entropy increases, mass/energy will dissipate throughout a given volume, and the ability of that energy to produce meaningful work diminish.
Because you apparently live in an alternate universe with very different laws of physics. In this universe, the half-life of a particular nuclide is a constant.
time is the only constant in any universe[the only thing that happens regardless of planet,moon,universe,galaxy[time is both constant and consistant]without regard to planet,suns,anything[NOTE;einsteins theory is based on time,motzarts,etc,our 360 degree is based on time as 60seconds x60 mins. =360,even ocean travel a sextant?
It is normally believed that the Universe's total mass remains constant.
It is the measure of the gravitational force experienced between any two bodies, anywhere in the universe. So, the same number is used to calculate the gravitational attraction between bodies anywhere in the universe. There are, however, some questions as to whether is is (or was) a constant over time.
Throughout the entire universe. (It is the most common element in the universe)
We see the light of main sequence stars throughout the universe. Such stars fuse hydrogen.