Category Science

Describe the plates of Earth?

The Earth’s Plates

It may seem that the earth’s crust is one gigantic piece of rock. But the outer shell of the earth is divided into about 30 large and small pieces that fit together like a puzzle. These pieces are called tectonic plates.

The plates move on a very hot layer of rock within the mantle. The plates move very slowly, only from 1.3 to 20 centimetres per year.

The continents sit on top of the plates. When the plates move, they take the continents with them. But the plates aren’t only under the continents. They are also under the ocean floor. They are under water on the continents, such as lakes and rivers, too.

Under land, the plates are about 100 kilometres thick in most places. In some places in the world’s oceans, they may be less than 8 kilometres thick.

As the plates move, the continents and oceans slowly change. Scientists think that in 50 million years, South America and Africa will be further apart. They think the Atlantic Ocean will be wider, and the Pacific Ocean will be smaller.

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Who Studies the Earth?

Some of the world’s best detectives are the people who study the earth. They are called geologists.

Geologists help us learn about the earth’s resources and how to care for them. They tell us how to preserve these resources and to use them properly when we must. Some geologists study where to build homes, bridges, and dams safely. These scientists also work to protect people from earthquakes, floods, and other natural disasters.

Geologists may be found chipping rocks on a mountainside or drilling on the ocean floor. Sometimes geologists work indoors. They X-ray rock samples, do research and tests on computers, or make maps of places they want to explore.

Geologists may travel all over the world. They search mountains, swamps, deserts, and the bottom of the ocean, so that we can learn more about the earth. They may tramp through rain forests, go underground into mines, or climb around an icy glacier.

Geologists and many other kinds of scientists uncover the secrets of the earth in different ways. Sometimes such scientists are called earth scientists.

Environmental geologists work to solve problems of pollution. They search for the best ways to get rid of hazardous waste – materials that are dangerous to our health.

Meteorologists study the weather and the air that surrounds the earth. They predict weather conditions.

Mining geologists study the earth’s rocks and ways to remove them.

Mineralogists identify and study the 3, 000 or so kinds of minerals found on the earth.

Petroleum geologists search for oil and natural gas on land and beneath the ocean floor.

Seismologists study the motion of the earth. They watch for earthquakes. Most earthquakes occur underwater.

Geochemists study the chemicals in the earth’s crust, its waters, and its atmosphere and why they are there.

Palaeontologists study fossils of animals and plants to learn about the earth’s past.

There are many kinds of earth scientists, but they have one thing in common. They all enjoy studying the earth and want to uncover its secrets.

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What is Oil?

Maybe you have used oil on your bicycle chain to keep it from squeaking. Did you know that oil was once part of the earth? It starts as a thick dark liquid called crude oil that is found between layers of rock deep inside the earth’s crust. Crude oil is also called petroleum.

Crude oil is a fossil fuel. This means that it started forming millions of years ago from dead plants and animals that had lived in the ocean. Over millions of years, these dead plants and animals piled up on the ocean floor. Thick layers of sand and soil covered them. The sand and soil squeezed together under their own weight and the weight of the water pressing down on them. They were pressed so hard that they turned into rock. Scientists believe that the weight of the rock helped turn the piles of dead plants and animals into oil.

People today use oil for many things. They use oil to heat homes and to run cars, planes, trains, ships, and trucks. They also use oil to make such things as medicines and plastics.

Oil companies get oil by drilling into the earth’s crust. They pump out the oil that is trapped under the earth’s surface. They even pump oil from under the ocean floor.

Because of its many uses, oil has become very valuable. But it takes millions of years for the earth to make more oil, so we need to make sure we don’t waste it.

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What are Fossils?

Imagine a giant dinosaur moving along a lakeshore 80 million years ago. It is searching for food. The dinosaur sees some plants and wades out to them. But before it reaches the plants, it steps into a deep hole filled with soft, wet mud. The dinosaur sinks deeper and deeper into the mud, and the dinosaur drowns.

Over time, the soft parts of the animal’s body rot away. Only its bones are left, covered by mud. For many years, layers of sediment pile on top of the mud and pack it tightly around the bones. Eventually, the packed mud turns to clay. After many more years pass, the clay turns to rock.

During all this time, minerals in the water of the lake fill the hollow places in the bones. The minerals harden and the skeleton of the dinosaur is preserved. The bones in the rock are called fossils.

There are other ways for fossils to be made. And, fossils exist for many kinds of living things – from bugs to plants to woolly mammoths – not just for dinosaurs.

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Are laser devices inspired by Einstein’s Theory of Stimulated Emission?

You might have come across laser pointers while attending a seminar or conference, or perhaps used it to play with your cat or dog. In the sixty years since physicists demonstrated the first laboratory prototype of a laser in 1960, it has been put to use in numerous ways from barcode readers to systems for hair removal.

The technology behind laser devices is based on Einstein’s Theory of Stimulated Emission. This theory came a year after the discovery of general relativity. Einstein imagined a bunch of atoms bathed in light. He had earlier discovered that atoms sitting in their lowest energy state can absorb photons and jump to a higher energy state. Similarly, higher energy atoms can emit photons and fall back to lower energies.

After sufficient time passes, the system attains equilibrium. Based on this assumption, he developed an equation that can be used to calculate what the radiation from such a system would look like. Unfortunately, Einstein’s calculations differed from the laboratory results. It was obvious that a key piece of the whole puzzle was missing.

Einstein resolved this by guessing that photons like to march in step. This would mean that the presence of a bunch of photons going in the same direction will increase the probability of a high-energy atom emitting another photon in that direction. Einstein labelled this process stimulated emission. He was able to rectify the disparity between his calculations and the observations by including this in his equations.

A laser is a device to harness this phenomenon. It excites a bunch of atoms with light or electrical energy. The photons released as a result are channelled precisely in one direction. Lasers are used in delicate surgery or industrial processes that require precision.

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Why is it said that Albert Einstein had even contributed to the daily functioning of Wall Street?

Wall Street in New York is the home of the New York Stock Exchange. An army of mathematicians are employed there to analyze and predict the stock price variations. Their employers can potentially earn millions of dollars based on their predictions about which way the prices will jump.

Mathematicians however say that stock markets follow a random walk. This means that unless some spectacular event occurs, the prices have the same chances of decreasing and increasing at the end of any day. If patterns do exist, they will be elusive and difficult to find, which is why financial mathematicians are paid huge sums.

Some of the intricate mathematics used for stock market analyses can be traced back to Einstein. He developed the fluctuation-dissipation   theorem to explain the random movement of particles found in liquids or gases.

This movement called ‘Brownian motion’ was first observed by the Scottish biologist Robert Brown. Brownian motion is highly similar to the price fluctuations seen in stock markets. The similarity was observed in 1970 and since then it has been used on Wall Street. Einstein’s paper on Brownian motion is still used as the basis for certain stock market predictions.

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