The universe has a detachable plastic cover at the back. Remove this cover using a Philips screwdriver. You will see small thumb wheels labeled, Gravitational Constant, Plank's Constant, Boltzman's Constant, Speed of Light, mass of electron, etc. These can be changed by turning the thumb wheel either towards the "+" or "-" signs.
Caution! Unless you know exactly what you're up to, don't play around with these dials. If you change these constants even ever so slightly, the results can be quite dramatic and you may not be able to turn them back. For example, if your new settings don't allow the existance of calcium, carbon or iron, then you're goosed!
The gravitational constant was found by Newton, not Einstein.
Cavendish measured the gravitational constant "G".
gravity of earth is constant in any plane but the acceleration may vary becoz of irregular plane
g, the force of the Earth's gravitational attraction, is not a constant.
The gravitational constant was derived experimentally. Until recently, it was believed that it was a universal constant. However, developments in cosmological theories suggest the possibility that it is not a constant.
There is no evidence to suggest that the gravitational constant 'G' is not the exact same number everywhere in the universe.
According to the current understanding of gravity, the force of attraction between any two objects, anywhere in the universe depends on the gravitational constant. It is therefore, considered a universal constant.
Yes, the universal gravitational constant is believed to be the same across the whole of the universe.
That's a really hot question among cosmologists and astronomers. No positive evidence of a change through time has been found, but then, how would you look for it or measure it out in the universe ? ! ?
Yes. All astronomical observations to date suggest that the gravitational constant is literally a universal constant ... the same everywhere in the universe.
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.
I only know of two constants in the universe. One is time which is an invariable constant and change which is a variable constant.
Any number that doesn't change is a constant. Some famous ones are the gravitational constant, the speed of light in a vacuum, and Planck's constant.
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.
Cavendish measured the gravitational constant "G".
The gravitational constant was found by Newton, not Einstein.
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