Where does gold come from in the universe

Revered for its aesthetic and metallurgical properties for thousands of years, gold is still one of the most sought after precious metals. There’s no question about it — for better or for worse, gold has played a unique role for humanity. Today, we’ll explore the fascinating science behind the origin of gold atoms and see how the prized element got to where it is today, here on Earth.

Why Gold is important

From Copper Age Israeli hills to the Bulgarian Varna Necropolis in the 4th millennium, from the Egyptian pharaohs to the Spanish conquistadors, the allure of gold – its powerful effect on us – has been consistent and unmistakable. In fact, the Egyptians called gold “the breath of God”. And it’s not just the ancients that held gold in high esteem.

To display his imperial glory, Napoleon gilded Paris in gold, while even more recently Hitler sought to control all of Europe’s gold as support for his “1000-year Reich.” What myths made gold such a prized commodity and what factual properties still support it as a precious metal to this very day?

First and foremost, what makes a precious metal is its rarity.  Rarer than silver or copper, two other metals mined since antiquity, its value was proportionately larger. Second, gold has fantastic properties. It does not tarnish, it’s very easy to work, can be drawn into wire, hammered into thin sheets, it alloys with many other metals, can be melted and cast into highly detailed shapes, has a wonderful color and a brilliant luster. All of these properties could be harnessed since ancient times, like today, just by heating gold nuggets at high temperatures and using simple tools like hammers or molds.

In short, gold is very memorable, so it shouldn’t come as a surprise that its main use is in jewelry.

Since time immemorial the noble metal’s resplendent luster allows it to be designed into the world’s most coveted and exquisite jewelry — fit for queens or kings. Today, most of the gold that is newly mined or recycled is used in the manufacture of jewelry. About 78% of the gold that’s available, as opposed to stored, each year is used for this purpose.

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Because gold is highly valued and in very limited supply it has long been used as a medium of exchange or money. The first known use of gold in transactions dates back over 6000 years.

Early transactions were done using pieces of gold or pieces of silver. The rarity, usefulness, and desirability of gold make it a substance of long-term value.

The first gold coins were minted under the order of King Croesus of Lydia (a region of present-day Turkey) in about 560 BC. Gold coins were commonly used in transactions up through the early 1900s when paper currency became a more common form of exchange. The United States once used a “gold standard” and maintained a stockpile of gold to back every dollar in circulation. Under this gold standard, any person could present paper currency to the government and demand in exchange an equal value of gold.

Possibly gold’s greatest use to mankind didn’t become evident until early last century when its fantastic electrical conductivity properties came to light. Solid state electronic devices use very low voltages and currents which are easily interrupted by corrosion or tarnish at the contact points. Gold is the highly efficient conductor that can carry these tiny currents and remain free of corrosion, which is why electronics made using gold are highly reliable. A small amount of gold is used in almost every sophisticated electronic device. This includes cell phones, calculators, personal digital assistants, global positioning system units and other small electronic devices.

Facts about gold

• The atomic number of gold, which means there are 79 protons in the nucleus of every atom of gold.
• One ounce of gold can be stretched to a length of 50 miles; the resulting wire would be just five microns wide.
• One ounce of pure gold could be hammered into a single sheet of nine square meters.
• Over 90 percent of the world’s gold has been mined since the California Gold Rush.
• Julius Caesar gave two hundred gold coins to each of his soldiers from the spoils of war in defeating Gaul.
• Fort Knox holds 4,600 tonnes of gold.
• And the US Federal Reserve holds 6,200.
• The temperature of the human body is 37 degrees centigrade. Because of gold’s unique conductivity, gold jewelry rapidly matches your body’s heat, becoming part of you.
• In 95 BC, Chinese Emperor Hsiao Wu I minted gold commemorative piece to celebrate the sighting of a unicorn.
• Gold is edible. Some Asian countries put gold in fruit, jelly snacks, coffee, and tea. Since at least the 1500s, Europeans have been putting gold leaf in bottles of liquor, such as Danziger Goldwasser and Goldschlager. Some Native American tribes believed consuming gold could allow humans to levitate.
• The chemical symbol for gold is Au, from the Latin word aurum meaning “shining dawn” and from Aurora, the Roman goddess of the dawn. In 50 B.C., Romans began issuing gold coins called the Aureus and the smaller solidus.
• Between A.D. 307 and 324, the worth of one pound of gold in Rome rose from 100,000 denarii (a Roman coin) to 300,000 denarii. By the middle of the fourth century, a pound of gold was worth 2,120,000,000 denarii—an early example of runaway inflation, which was partly responsible for the collapse of the Roman Empire.

Where did gold come from?

The ancient Aztecs believed gold was in fact “the sweat of the sun”. Though this isn’t true, the phrase is a highly accurate metaphor.

Gold, like most heavy metals, are forged inside stars through a process called nuclear fusion. In the beginning, following the Big Bang, only two elements were formed: hydrogen and helium. A few hundred million years after the Big Bang, the first stars were blazing away with their nuclear fires. These nuclear fires forced lighter elements together to make slightly heavier elements, and these nuclear reactions released a huge amount of energy.

Gradually, these early stars began making elements such as carbon, nitrogen, oxygen — working their way up through the periodic table towards iron. But there was still no gold in the Universe. Once these earlier stars ran out of light elements to burn, they kicked in on the heavier ones.

Finally, as they burnt silicon to make iron, they exploded as a supernova, and for a few short moments, each star would release as much energy as all the regular stars in that galaxy put together.In that cataclysmic explosion, for the first time, atoms of gold were manufactured — and then hurled out into the Universe, along with the other debris from that explosion.

On Earth, gold finally reached us some 200 million years after the formation of the planet when meteorites packed with gold and other metals bombarded its surface. During the formation of Earth, molten iron sank to its centre to make the core. This took with it the vast majority of the planet’s precious metals — such as gold and platinum. In fact, there are enough precious metals in the core to cover the entire surface of Earth with a four-metre thick layer.

Another theory concerning the formation of gold that’s been gaining a lot of traction today is that the element can form following the collision of two neutron stars. Following the collapse of a massive star – at least eight times more massive than the Sun –  what remains is a extremely dense core. They have masses comparable to a star, but that mass is compressed into an object roughly 10 kilometers in diameter, or the size of a city on Earth. Another way to look at this would be to imagine cramming Mount Everest into your morning cup of coffee to achieve the same density as a neutron star. At these huge densities, the fabric and space and time is stretched by exotic physics.

Two neutron stars in mutual orbit can collide when gravitational waves carry enough energy away from the system to destabilize the orbit. When this happens, a type of gamma-ray burst can occur – these are the most powerful explosions in the universe. The intense energy would be enough to create gold and other heavy elements, according to a paper published in the Astrophysical Journal Letters.

Check out the video below for a brief explanation of the neutron star gold formation hypothesis.

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