As shown in the previous post, the geologic long-term
dating methods are fraught with error, though no geologist is going to say
so—however, the method used for dating rocks that makes a claim the Earth to be 4.54
billion years old is based on erroneous beliefs. In the last post we presented
three major, insurmountable and unprovable assumptions geology makes in order
to date the rocks they use to date the Earth. Let’s take a deeper look at these
three assumptions.
Who would have
been around in the geologist’s beginning to know what rocks were like, what
they contained, and how they were affected by other factors?
Assumption 1: Conditions at Time Zero: No
geologists were present when the vast majority of Earth rocks formed, so they
cannot test whether the original rocks already contained daughter isotopes
alongside their parent radioisotopes. For example, with regard to the volcanic
lavas that erupted, flowed, and cooled to form rocks in the unobserved past,
evolutionary geologists simply assume that none of the daughter argon-40
atoms were in the lava rocks.
For the other radioactive “clocks,” it is assumed that
by analyzing multiple samples of a rock body, or unit, today, it is possible to
determine how much of the daughter isotopes (lead, strontium, or neodymium)
were present when the rock formed (via the so-called isochron technique, which
is still based on unproven assumptions 2 and 3).
Yet, lava flows that have occurred in the present have
been tested soon after they erupted, and they invariably contained much more
argon-40 than expected. For example, when a sample of the lava in the Mt. St.
Helens crater (that had been observed to form and cool in 1986) was analyzed in
1996, it contained so much argon-40 that it had a calculated “age” of 350,000
years! Similarly, lava flows on the sides of Mt. Ngauruhoe, New Zealand, known
to be less than 50 years old, yielded “ages” of up to 3.5 million years.
So it is logical to conclude that if recent lava flows
of known age yield incorrect old potassium-argon ages due to the extra
argon-40 that they inherited from the erupting volcanoes, then ancient lava
flows of unknown ages could likewise have inherited extra argon-40 and yield
excessively old ages.
There are similar problems with the other radioactive
“clocks.” For example, consider the dating of Grand Canyon’s basalts (rocks
formed by lava cooling at the earth’s surface). We find places on the North Rim
where volcanoes erupted after the Canyon was formed, sending lavas cascading
over the walls and down into the Canyon--obviously, these eruptions took place
very recently, after the Canyon’s layers were deposited.
However, these basalts yield ages of up to 1 million
years based on the amounts of potassium and argon isotopes in the rocks. But
when we date the rocks using the rubidium and strontium isotopes, we get an age
of 1.143 billion years. This is the same age that we get for the basalt layers
deep below the walls of the eastern Grand Canyon.
How could both lavas—one at the top and one at the
bottom of the Canyon—be the same age based on these parent and daughter
isotopes? One solution is that both the recent and early lava flows inherited
the same rubidium-strontium chemistry—not age—from the same source, deep in the
earth’s upper mantle. This source already had both rubidium and strontium.
To make matters even worse for the claimed reliability
of these radiometric dating methods, these same basalts that flowed from the
top of the Canyon yield a samarium-neodymium age of about 916 million years,
and a uranium-lead age of about 2.6 billion years!
Who would have
been around millions of years ago to know what kind of contaminants might have
affected the rocks, from ground water to other factors?
Assumption 2: No Contamination: The
problems with contamination, as with inheritance, are already well-documented
in the textbooks on radioactive dating of rocks. The radioactive “clock” in
rocks is open to contamination by gain or loss of parent or daughter isotopes
because of waters flowing in the ground from rainfall and from the molten rocks
beneath volcanoes. Similarly, as molten lava rises through a conduit from deep
inside the earth to be erupted through a volcano, pieces of the conduit wall rocks
and their isotopes can mix into the lava and contaminate it.
Because of such contamination, the less than 50-year-old
lava flows at Mt. Ngauruhoe, New Zealand, yield a rubidium-strontium “age” of
133 million years, a samarium-neodymium “age” of 197 million years, and a
uranium-lead “age” of 3.908 billion years!
Assumption 3: Constant Decay Rate: Physicists
have carefully measured the radioactive decay rates of parent radioisotopes in
laboratories over the last 100 or so years and have found them to be
essentially constant (within the measurement error margins). Furthermore, they
have not been able to significantly change these decay rates by heat, pressure,
or electrical and magnetic fields. So geologists have assumed these radioactive
decay rates have been constant for billions of years.
However, this is an enormous extrapolation of seven
orders of magnitude back through immense spans of unobserved time without any
concrete proof that such an extrapolation is credible. Nevertheless, geologists
insist the radioactive decay rates have always been constant, since it makes
these radioactive clocks “work”!
New evidence, however, has recently been discovered that
can only be explained by the radioactive decay rates not having been constant
in the past. For example, the radioactive decay of uranium in tiny crystals in
a New Mexico granite yields a uranium-lead “age” of 1.5 billion years. Yet the
same uranium decay also produced abundant helium, but only 6,000 years worth of
that helium was found to have leaked out of the tiny crystals.
This means that the uranium must have decayed very
rapidly over the same 6,000 years that the helium was leaking. The rate of
uranium decay must have been at least 250,000 times faster than today’s
measured rate!
The assumptions on which the radioactive dating is based
are not only unprovable but plagued with problems. As this article has
illustrated, rocks may have inherited parent and daughter isotopes from their
sources, or they may have been contaminated when they moved through other rocks
to their current locations. Or inflowing water may have mixed isotopes into the
rocks. In addition, the radioactive decay rates have not been constant.
The Geologic
Time Clock which shows the Quaternary Period, the time man has been on the
geologic earth—a mere 17 seconds on the geologic clock
So if these clocks are based on faulty assumptions and
yield unreliable results, then scientists should not trust or promote the
claimed radioactive “ages” of countless millions of years, especially since
they contradict the true history of the universe as recorded in God’s Word--yet they do constantly and with great vigor.
What is really disheartening about
all this is that geologists will not even consider the negative side of their
assumptions, but cling to them as though they are infallible and their
assumptions unquestionable!
(See the next post,
“Changing Land of Promise—Part XV and Our Changing World,” for an understanding
of the Assumptions made by Geologists to date the Earth)
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