Good Advice
Sir Isaac
Newton came around to my house one day
His face was all sunburned and red
He said he didn't want to sleep in the shade of a tree,
Because an apple might fall on his head
I said, "Sir Isaac, you dumbbell, take my advice
Go right back there and sleep beneath that tree
And if you let that rotten apple fall down on your head,
Why you'll discover gravity"
Maybe Newton
only APPEARED to discover gravity!
Newton’s Laws of Motion are:
Law
1. A body remains at rest, or in
motion at a constant speed in a straight line, unless acted upon by a force.
Law
2. When a body is acted upon by a
force, the time rate of change of its momentum equals the force.
Law
3. If two bodies exert forces on each
other, these forces have the same magnitude but opposite directions.
These
laws describe the motion in a flat, Euclidean, spacetime. If the universe is hyperbolic, and Einstein’s
General Relativity is considered, it should be :
Law
1. A body remains at rest, or in
motion at a constant speed in a straight line along a geodesic in spacetime, unless acted upon by a force.
Law
2. When a body is acted upon by a
force, the time rate of change of its momentum equals the force. If a
body moves along a geodesic to decrease its energy, it may appear in a
Euclidean frame of reference that a force has changed that body's momentum.
Law
3. If two bodies exert forces on each
other, these forces have the same magnitude but opposite directions.
This
has an implication on the Lorentz Factor that governs time dilation, T=T0*γ;
length contraction, L=L0/ γ ; and rest mass, M=M0*γ. The Lorentz Factor is typically given as
γ=1/sqrt(1-(v/c)2 ).
where
sqrt = the square root operation;
v = velocity, and
c = the speed of light.
This has the problem that there
is a discontinuity, it is undefined, at a v/c of 1.
In hyperbolic spacetime, this factor
would be
γ=1_ln(cosh(v/c)±sinh(v/c))
where
ln = the natural logarithm function, a logarithm with a base of e
This does not have a discontinuity
of 1 at a v/c of 1. At a v/c of 1, the
factor is zero.
It also means that Gravity is NOT a
force in hyperbolic spacetime. It is an
apparent force, unlike the other fundamental forces:
- The strong
nuclear force: the force responsible for holding quarks together to form
hadrons, and holding neutrons and also protons together to form atomic nuclei.
The exchange particle that mediates this force is the gluon.
- The electromagnetic
force: the familiar force that acts on electrically charged particles. The
photon is the exchange particle for this force.
- The weak nuclear
force: a short-range force responsible for some forms of radioactivity, that
acts on electrons, neutrinos, and quarks. The W and Z bosons are the exchange particles
for this force.
The difficulty
of including gravity in a unified field theory, and the inability to discover a
graviton as the exchange particle, is proposed to be a consequence of the hyperbolic
shape of the universe, spacetime.
Newton Law of Gravity, which is from
a Euclidean frame of reference, states that the force of gravity is
F=G*(M1*M2)/(d12
)2
where:
F = The
force of gravity,
M1 = Mass one,
M2 = Mass two,
d12 = The distance between mass one and mass two, and
G = The Gravitational
constant, 6.6743 × 10-11 m3 kg-1 s-2.
From
a hyperbolic, non-Euclidean, frame of reference there is no force, and the movement
of the two masses to a center of mass is a consequence of entropy maximization
and the objects moving from their initial positions to their center of mass
along a geodesic.
F'=G*M1*M2*exp (-1/2*d12 )
where:
F’ = The
apparent force of gravity,
exp = the exponential function,
M1 = Mass one,
M2 = Mass two,
d12 = The distance between Mass one and Mass two, and
G = The Gravitational constant, 6.6743 × 10-11 m3 kg-1 s-2.