Carbon dating doubts
This is a real and common problem with radiometric dating techniques.
Yet the column and its assumptions are used along with index fossils to assign dates to sedimentary rock layers and which in turn is used to date any fossil in that rock layer.All the canyon layers are ocean bottom sediments, filled with fossils of ocean-dwelling creatures and plants almost a mile high from top to bottom.The Cardenas Basalt bottom layer (below the Cambrian explosion) is usually dated with Rhobidium -Strontium and calculated to be about 1 billion years old.In geology, the buzzword is “The present is the key to the past” – but today – no 100 mile cavern systems are being formed, vitually no fossils are being formed, and no new strata covering entire continents are being laid down. Unfortunately, uniformitarianism has gripped geology academia and no other viewpoints are allowed.What we see around the earth are huge layers of sedimentary rock filled with dead things. This evolutionary assumption has become a naturalistic religion, an ideology established already before Darwin published his book in 1859.Actually the assignment of a certain number of millions of years to a rock formation does not derive from the strata itself.
The standard Geological Column became the reference point, even though it does not appear anywhere on earth except in text books.
This method is used only on metamorphic and igneous rocks – not sedimentary rocks (which are rocks laid down by water – and is where the fossils are primarily found).
The radio-dating calculations are based on a series of Assumptions: 1) The decay rate has not changed.
The resulting rock strata may harbor fossils from a particular habitat area or ecosystem, but do not represent a particular age or era.
Why else do we find marine fossils on the tops of all the major mountain ranges?
These dating methods rely on a series of assumptions about the amounts of the parent-daughter elements, and a constant rate of decay. It has been accepted that a rock is formed when it first cools down from a molten or semi-molten state, which may include a variety of elements, including radioactive ones. For the last 100 years we have been able to measure the decay rate, and during this time it has been very steady, very consistent.