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How much pressure does it take to fuse hydrogen?

How much pressure does it take to fuse hydrogen?

The minimum temperature required to fuse hydrogen is about 100 million Kelvin, which is about six times the temperature in the core of our Sun. The pressure required must be high enough to force the hydrogen nuclei within 10^(-12) millimeters of each other.

Why do fusion reactions need high temperature and pressure?

First, fusion requires both extremely high temperatures to give hydrogen atoms enough energy to overcome repulsion between the protons. Energy from microwaves or lasers must be used to heat hydrogen atoms to the necessary temperatures. Second, high pressures are needed to squeeze hydrogen atoms close enough to fuse.

Why does nuclear fusion of hydrogen require high temperatures?

When hydrogen atoms fuse, the nuclei must come together. High temperature gives the hydrogen atoms enough energy to overcome the electrical repulsion between the protons. Fusion requires temperatures of about 100 million Kelvin (approximately six times hotter than the sun’s core).

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Does fusion occur at high temperatures?

On Earth, to produce net power, fusion reactions must take place at very high temperatures of at least 100 million degrees, which is some seven times hotter than the centre of the Sun. At these very high temperatures the fusion fuel turns into a plasma.

At what temp does nuclear fusion begin?

15,000,000 degrees Celsius
Over millions of years, more hydrogen gas is pulled into the spinning cloud. The collisions which occur between the hydrogen atoms starts to heat the gas in the cloud. Once the temperature reaches 15,000,000 degrees Celsius, nuclear fusion takes place in the center, or core, of the cloud.

How much heat and pressure is needed for fusion?

Fusion fuel – different isotopes of hydrogen – must be heated to extreme temperatures of the order of 50 million degrees Celsius, and must be kept stable under intense pressure, hence dense enough and confined for long enough to allow the nuclei to fuse.

Why does fusion only happen at very high temperatures?

Nuclear fusion of hydrogen to form helium occurs naturally in the sun and other stars. It takes place only at extremely high temperatures. That’s because a great deal of energy is needed to overcome the force of repulsion between the positively charged nuclei.

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Which type of fusion requires a higher temperature?

Helium fusion
Helium fusion requires higher temperatures than hydrogen fusion because greater electrical charge leads to greater repulsion (100 million K, compared to 15 million K). Helium burning in core makes carbon with a surrounding hydrogen-burning shell.

Why can fusion only occur at high temperatures?

It takes place only at extremely high temperatures. That’s because a great deal of energy is needed to overcome the force of repulsion between the positively charged nuclei. The sun’s energy comes from fusion in its core, shown in the Figure below. In the core, temperatures reach millions of degrees Kelvin.

What temperature does hydrogen fusion occur?

100 million degrees
To make fusion happen, the atoms of hydrogen must be heated to very high temperatures (100 million degrees) so they are ionized (forming a plasma) and have sufficient energy to fuse, and then be held together i.e. confined, long enough for fusion to occur. The sun and stars do this by gravity.

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What is the temperature required for hydrogen fusion to occur?

High temperature gives the hydrogen atoms enough energy to overcome the electrical repulsion between the protons. Fusion requires temperatures of about 100 million Kelvin (approximately six times hotter than the sun’s core). At these temperatures, hydrogen is a plasma, not a gas.

How hot does it have to be to fuse hydrogen?

Fusion requires temperatures of about 100 million Kelvin (approximately six times hotter than the sun’s core). At these temperatures, hydrogen is a plasma, not a gas. Plasma is a high-energy state of matter in which all the electrons are stripped from atoms and move freely about.

What are the conditions for fusion to occur?

It’s fairly complicated but it does require very high temperatures and very high pressures. For reference fusion happens at the centre of the sun, but does not produce very much energy per unit volume (about the same as a living mammal) so for a viable reactor we need much higher energies than the centre of the sun.

How hard is it to make fusion energy?

But fusion is really hard to create,” says E. Michael Campbell, director of the University of Rochester’s Laboratory for Laser Energetics (LLE).