Group 2 The birth of modern geology-compressed.pdf

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HELLO
EVERYONE!
SEPTEMBER 9, 2024
MONDAY
 OBJECTIVES
Identify the key figures who contributed
01
to the birth of modern geology.

Describe the principles of radiometric
02 dating and how it is used to determine
the age of rocks, fossils, and artifacts.
 BIRTH OF
MODERN GEOLOGY
LESSON 2.2
Before the late 1700s, people explained the
Earth’s features using stories and religious
beliefs. But the, scientists started looking at
rocks and fossils, and they realized that the
earth was much older and had changed over a
very long time.
James Hutton (1726-1797)
was a Scottish geologist,
agriculturalist, chemical
manufacturer, naturalist,
and physician. He is often
called as the “Father of
Modern Geology”.
Charles Lyell (1797-1875) was
a prominent Scottish
geologist who played a
pivotal role in shaping our
understanding of Earth’s
history. He is best known for
his influential work
“Principle of Geology”.
 UNIFORMITARIANISM
Uniformitarianism is the idea that the
geological processes we observe currently,
like erosion, sedimentation, and volcanic
activity, have been happening in much the
same way throughout Earth's history.
 Early Methods of Dating the
Earth:
1 Sedimentation Rates
2 Ocean Salinity (Salt Clock)
3 Earth’s Heat Loss
 Early Methods of Dating the
Earth:
Sedimentation Rates
Some geologists maintained that if they could
determine the rate that sediments accumulate, and
could ascertain the total thickness of sedimentary
rocks during earth’s history, then they could estimate
the length of geologic time. All that they had to do was
to divide the rate of sediment accumulation by the total
thickness of the sedimentary rock.
 Early Methods of Dating the
Earth:
Ocean Salinity (Salt Clock)
Scientists who subscribe to this method believed that
the oceans started as fresh waters. The idea behind
this method was that rivers continuously carry
dissolved salts from weathered rocks into the ocean.
Since these salts are not easily removed, the ocean's
salinity should increase over time.
 Early Methods of Dating the
Earth:
Earth’s Heat Loss
It focused on the idea that Earth was initially a molten
ball and has been gradually cooling down ever since. By
measuring the current rate of heat loss from Earth's
interior and assuming a constant cooling rate,
scientists could theoretically calculate how long it took
for the planet to reach its current temperature.
Lord Kelvin, born William
Thomson in 1824, was a
prominent British physicist
and mathematician who made
significant contributions to
thermodynamics and
electromagnetism.
One of his most famous
endeavors was calculating the
age of the Earth based on its
cooling rate.
Kelvin's calculations were
rooted in the principles of
thermodynamics, particularly
the concept of heat
conduction.
Why Kelvin's Estimates Were Widely
Accepted?
Reputation
Novelty of the Approach
Alignment with Prevailing
Understanding
 Limitations of Kelvin's Assumptions
Missing Heat Source:
Kelvin's primary assumption was that the Earth
was cooling solely through conduction, neglecting
any additional heat sources. He didn't account
for the internal heat generated by radioactive
decay, which was unknown at the time.
 Limitations of Kelvin's Assumptions

Uniform Temperature:
He also assumed a uniform temperature
distribution within the Earth's interior, ignoring
the potential contribution from radioactive
decay.
 Limitations of Kelvin's Assumptions

Underestimated Age:
These assumptions led to an underestimate of
the Earth's age.
 Refutation of Kelvin's Findings

The discovery of radioactivity in the late 19th and
early 20th centuries provided a new source of
internal heat that Kelvin had not accounted for in his
calculations. Radioactive decay within the Earth's
crust and mantle generates heat, slowing the cooling
process and significantly extending the estimated age
of the Earth.
 Refutation of Kelvin's Findings

The discovery of radioactivity in the late 19th and
early 20th centuries provided a new source of
internal heat that Kelvin had not accounted for in his
calculations. Radioactive decay within the Earth's
crust and mantle generates heat, slowing the cooling
process and significantly extending the estimated age
of the Earth.
 Refutation of Kelvin's Findings

As a result, Kelvin's estimates were eventually
refuted, and modern science now places the Earth's
age at approximately 4.5 billion years. This
discrepancy highlighted the importance of
considering all possible factors in scientific
calculations and demonstrated the evolving nature of
scientific understanding.
 The Discovery of Radioactivity

A New Era of Dating: Radioactivity
 Introduction to the Concept of
Radioactivity
The discovery of radioactivity at the end of
the 19th century marked a significant
turning point in the field of science,
particularly in our understanding of the
Earth's age and the dating of geological and
archaeological materials.
Radioactivity refers to the spontaneous emission of
particles or radiation from the nucleus of an unstable
atom.
This process, first observed by Henri Becquerel and
later studied extensively by Marie and Pierre Curie,
revealed that certain elements could change into other
elements over time, releasing energy in the form of
radiation. This phenomenon provided a new tool for
scientists to measure time, revolutionizing dating
methods.
Parent and Daughter Isotopes
Radioactive Decay: In radioactive
decay, the original unstable atom is
known as the "parent" isotope, and
the product of its decay is called the
"daughter" isotope.
 Transformation: The parent isotope
decays into the daughter isotope at a
predictable rate. This transformation
occurs through various processes, such as
alpha decay, beta decay, or gamma decay,
each involving the emission of different
particles or energy.
Relationship: The relationship between
the parent and daughter isotopes is crucial
for dating because it allows scientists to
calculate the age of a sample based on the
proportion of remaining parent isotopes to
the amount of daughter isotopes produced.
Importance of Radioactive Decay
Rates for Dating
Half-Life: The key to using radioactivity
for dating lies in the concept of the half-
life, which is the time it takes for half of
the parent isotopes in a sample to decay
into daughter isotopes.
Radiometric Dating: By measuring the
ratio of parent-to-daughter isotopes and
knowing the half-life of the parent, scientists
can determine the age of a sample with
remarkable precision. This method, known as
radiometric dating, has been instrumental in
establishing the ages of rocks, fossils, and
even the Earth itself.
 Radioactive Decay
the emission of energy in the
form of ionizing radiation. It is
also measured in terms of half-
life
A half-life is the time it takes for one
half of the radioactive materials to
decay. Half- lives are computed from
laboratory analysis of radioactive
elements.
As these decay, the amount decreases.
If the trunk of a tree is already very
old and the amount of radioactive
carbon is too small, then the tree
trunk cannot be dated by carbon 14
method.
carbon 14 dating cannot be used if the
tree trunk is less than 100 years old.
In order to use the half-life method,
scientists assume a "closed system"
 where there is nothing added or lost
in terms of the radioactive element
samples or other elements used in the
laboratory analysis.
THANK
YOU!