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What type of information do scientists use to determine the approximate age of the earth?
The age of the earth has been arrived at, slowly and step by step, as scientists refine existing methods and discover new ones.
Early in the nineteenth century, Charles Lyell examined the great volcano of Etna on Sicily and studied the historical records of frequent eruptions. He noticed that each time it erupted, a new layer of lava would be added, causing the mountain to grow at a measurable rate. By knowing the height of the volcano, its approximate rate of growth and the frequency of eruptions, Lyell determined that the volcano must be several hundred thousand years old. At the edge of the volcano, under the first lava flows, he found fossil shells that were virtually identical to the shells of molluscs still found in the Mediterranean Sea. From this, he deduced that the fossils were geologically recent, that a hundred thousand years was geologically short and that the age of the earth must be immense. Because of Lyell's research, it was no longer possible to consider the earth to be only a few thousand years old.
In 1862, Lord Kelvin, Professor of Natural Philosophy at Glasgow University and regarded by his contemporaries as the greatest physicist of his day, announced that he had calculated the time it would take the world to cool down from its molten state. He calculated that this was between 20 and 400 million years. Later, Kelvin refined his calculations to within the range 20 to 100 million years and, later still, to some 20 to 40 million years. With the discovery of radioactivity, it was soon realised that the uranium present in the earth prolongs its cooling almost indefinitely. So. Kelvin's method only gives a minimum age, but by no means a true estimate.
Samuel Haughton, an Irish geologist, calculated that sediments were deposited on the ocean floor at the rate of "one foot in 8,616 years". He then calculated a minimum duration of around 2000 million years. Unwilling to accept such a long period, he scaled it back, by a factor of 10, to just 200 million years. This may not be an important dating method today, but it does lend confirmation to other dating methods.
Once the radioactive decay of uranium was discovered, it was only necessary to determine the rate of helium production and the amount of helium that had accumulated, to calculate the age of a rock. In the early years of the twentieth century, Lord Rutherford established the age of a rock as 500 million years, by measuring the amounts of radium and helium present. Strutt soon realised that some of the helium would have escaped as the rocks were crushed for analysis, leading to false short estimates of the ages of the rocks. The rock must have been even older, but the proof of that had to wait.
It was established that lead was the stable element resulting from radioactive decay of uranium. Since lead is not a gas, Holmes decided to determine the age of rocks by using the ratios of uranium and lead. Using rocks from the Devonian age, Holmes calculated that the Devonian age was at least 370 million years ago.
In 1922, Dr Aston discovered a new lead isotope which must have been the end-product of a new isotope of uranium. That isotope of uranium was isolated as uranium 235, which was present in very small proportions to uranium 238 and decayed at a much faster rate. Rutherford used this new information to arrive at an age of 3400 million years for the earth. Scientists were now getting close to the real age of the earth.
Iron meteorites contain almost no uranium, so any lead in them would be 'ordinary' or primeval lead, the amount of which could be used as the uncontaminated estimate for the earth itself, provided that the earth and meteorites had a common ancestry. In 1953, Fritz Houtermans used material from a meteorite to calculate the age of the earth as 4500 million years, plus or minus 300 million. In the same year, Patterson independently produced figures of 4510 and 4560 million years, using a basalt and a granite sample. In 1956, Patterson proved that the earth and meteorites had a common ancestry, thus validating the results.
Holmes felt that it was unsound in principle to rely on meteorites for calculating the age of the earth. He announced that, from terrestrial evidence, he had dated the earth to 4,500 million years, plus or minus 100 million years.
The oldest things so far found on earth and that were formed here are zircon crystals found in Western Australia, that are more than 4 billion years old. Moon rocks have been found to be just over 4 billion years old, evidence that the earth and the moon were formed at the same time and from the same material.
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How did scientists determine the information about the earth's crust?
Scientists determined information about Earth's crust using various methods, including seismic imaging, drilling core samples, and satellite remote sensing. These techniques help scientists analyze the composition, structure, and thickness of the Earth's crust, providing valuable insight into the planet's geology and tectonic processes.
What other information do scientists look to seismic waves for?
Scientists look to the seismic waves to reveal the Earth's interior.
What is the piece of evidence used to determine the phase of the core?
The primary piece of evidence used to determine the phase of the Earth's core is seismic waves. By studying how seismic waves pass through the core, scientists can infer information about its composition, temperature, and state (solid inner core, liquid outer core).
Studying the magnetic patterns of the rocks in the floor of the ocean helps scientists do what?
Studying the magnetic patterns of ocean floor rocks helps scientists understand the movement of Earth's tectonic plates and past changes in the Earth's magnetic field. This information is crucial for reconstructing the history of plate tectonics and understanding the processes that shape the Earth's surface.
If scientists knew the latitude of a location on Earth and surface but not the longitude what could they determine about the location?
How far north or south of the equator the location lies.
How did scientists determine the information about earth's crust?
By poking, prodding, analyzing rock, testing hypothesis. The scientific method.
When do scientists approximate the origin of Earth to be?
6.5 Billion years ago.
How did the scientists determine the shape of the earth?
round shape
By testing soil composition in various locations scientists are able to determine the age of earth's?
By analyzing soil composition, scientists can determine the age of Earth's surface by studying the layers of sediment and rock. By dating the materials found in these layers using techniques like radiometric dating, scientists can estimate the age of the Earth and the events that have occurred over time. This information helps us understand the Earth's history and how it has evolved over billions of years.
By testing soil composition in various location scientists are able to determine the age of the earths?
While soil composition is an important tool for understanding the earth's history, it alone cannot determine the age of the earth. Scientists use a variety of methods such as radiometric dating of rocks, fossils, and ice cores to determine the age of the earth. These methods provide more accurate and reliable information about the age of our planet.
How did scientists determine the information about the earth's crust?
Scientists determined information about Earth's crust using various methods, including seismic imaging, drilling core samples, and satellite remote sensing. These techniques help scientists analyze the composition, structure, and thickness of the Earth's crust, providing valuable insight into the planet's geology and tectonic processes.
How do scientists use radiometric dating to determine the age of the Earth?
Scientists use radiometric dating to determine the age of the Earth by measuring the decay of radioactive isotopes in rocks and minerals. By analyzing the ratio of parent isotopes to daughter isotopes, scientists can calculate the age of the Earth based on the rate of decay of these isotopes.
What do scientist discover information about earth's past?
Scientists use various methods such as studying fossils, ice cores, rock layers, and sediments to gather information about Earth's past. By analyzing these materials, scientists can determine past climates, landscapes, and the evolution of life on Earth. Additionally, techniques like carbon dating and isotopic analysis help in dating and understanding the age of different Earth materials.
How much does earth?
There is not enough information to answer this question.
Is there a way to determine if water ever leaves the Earth"?
Yes, scientists can track the movement of water on Earth through the water cycle, which includes processes like evaporation, condensation, and precipitation. By studying these processes, scientists can determine if water ever leaves the Earth's system.
How did people find out what the center of the earth is made of?
Scientists use seismology to study the Earth's interior and infer its composition. By analyzing seismic waves and how they travel through the Earth, researchers can infer the materials and properties found in the Earth's core and mantle. This information helps scientists determine what the center of the Earth is made of.
Why do scientists study deuterium to determine the origins of water on Earth?
Scientists study deuterium in water because it can provide clues about the origin of water on Earth. Deuterium is an isotope of hydrogen that can help differentiate between water from sources like comets, asteroids, or Earth's mantle. By analyzing the deuterium content in water, scientists can determine where that water may have come from in the early stages of Earth's formation.
