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Get your daily dose of science stories and announcements — for free! Norton Scientific Journal has everything covered in the field of science.
Norton Scientific Journal is organized specifically to help you find what you want. Fast. So browse in our numerous topic sections where you're surely find what you need.

On June 25, the hottest man-made temperature has been recorded in a huge atom-smasher at New York at 7.2 trillion degrees Fahrenheit — just 250,000 times hotter compared to the sun’s core.
This achievement occurred in the particle accelerator RHIC (Relativistic Heavy Ion Collider), a 3.9-kilometer tunnel under New York that researchers use to smash particles into one another to replicate conditions that happened a split-second after the Big Bang.
Creating the hot temperature in a controlled environment was done in Brookhaven National Laboratory through colliding gold nuclei with each other at the speed of light.
Once the collision of ions happened, the huge amount of energy it emits will melt the protons and neutrons in the gold nuclei, turning into a liquid composed of smaller particles called gluons and quarks.
At 7 trillion degrees Fahrenheit, normal matter would usually break down into sub-atomic particles, the gluons and quarks that supposedly composed the earliest plasma that scientist thought resembles the thing that consisted the universe right after the Big Bang happened, 13.7 billion years ago.
According to the head of the Brookhaven program, particle physicists formerly thought that quarks and gluons would be in gas form but this new study revealed that it is behaving more like a liquid. And while they already expected to get to such extreme temperatures, they were really surprised of it having an almost perfect liquid behavior. ...

Get your daily dose of science stories and announcements — for free! Norton Scientific Journal has everything covered in the field of science.

Norton Scientific Journal is organized specifically to help you find what you want. Fast. So browse in our numerous topic sections where you’re surely find what you need.

On June 25, the hottest man-made temperature has been recorded in a huge atom-smasher at New York at 7.2 trillion degrees Fahrenheit — just 250,000 times hotter compared to the sun’s core.
This achievement occurred in the particle accelerator RHIC (Relativistic Heavy Ion Collider), a 3.9-kilometer tunnel under New York that researchers use to smash particles into one another to replicate conditions that happened a split-second after the Big Bang.
Creating the hot temperature in a controlled environment was done in Brookhaven National Laboratory through colliding gold nuclei with each other at the speed of light.
Once the collision of ions happened, the huge amount of energy it emits will melt the protons and neutrons in the gold nuclei, turning into a liquid composed of smaller particles called gluons and quarks.
At 7 trillion degrees Fahrenheit, normal matter would usually break down into sub-atomic particles, the gluons and quarks that supposedly composed the earliest plasma that scientist thought resembles the thing that consisted the universe right after the Big Bang happened, 13.7 billion years ago.
According to the head of the Brookhaven program, particle physicists formerly thought that quarks and gluons would be in gas form but this new study revealed that it is behaving more like a liquid. And while they already expected to get to such extreme temperatures, they were really surprised of it having an almost perfect liquid behavio...

Get your daily dose of science stories and announcements — for free! Norton Scientific Journal has everything covered in the field of science.

Norton Scientific Journal is organized specifically to help you find what you want. Fast. So browse in our numerous topic sections where you're surely find what you need.

On June 25, the hottest man-made temperature has been recorded in a huge atom-smasher at New York at 7.2 trillion degrees Fahrenheit — just 250,000 times hotter compared to the sun’s core.

This achievement occurred in the particle accelerator RHIC (Relativistic Heavy Ion Collider), a 3.9-kilometer tunnel under New York that researchers use to smash particles into one another to replicate conditions that happened a split-second after the Big Bang.

Creating the hot temperature in a controlled environment was done in Brookhaven National Laboratory through colliding gold nuclei with each other at the speed of light.

Once the collision of ions happened, the huge amount of energy it emits will melt the protons and neutrons in the gold nuclei, turning into a liquid composed of smaller particles called gluons and quarks.

At 7 trillion degrees Fahrenheit, normal matter would usually break down into sub-atomic particles, the gluons and quarks that supposedly composed the earliest plasma that scientist thought resembles the thing that consisted the universe right after the Big Bang happened, 13.7 billion years ago.

According to the head of the Brookhaven program, particle physicists formerly thought that quarks and gluons would be in gas form but this new study revealed that it is behaving more like a liquid. And while they already expected to get to such extreme temperatures, they were really surprised of it havi...

Get your daily dose of science stories and announcements — for free! Norton Scientific Journal has everything covered in the field of science.

Norton Scientific Journal is organized specifically to help you find what you want. Fast. So browse in our numerous topic sections where you’re surely find what you need.

On June 25, the hottest man-made temperature has been recorded in a huge atom-smasher at New York at 7.2 trillion degrees Fahrenheit — just 250,000 times hotter compared to the sun’s core.

This achievement occurred in the particle accelerator RHIC (Relativistic Heavy Ion Collider), a 3.9-kilometer tunnel under New York that researchers use to smash particles into one another to replicate conditions that happened a split-second after the Big Bang.

Creating the hot temperature in a controlled environment was done in Brookhaven National Laboratory through colliding gold nuclei with each other at the speed of light.

Once the collision of ions happened, the huge amount of energy it emits will melt the protons and neutrons in the gold nuclei, turning into a liquid composed of smaller particles called gluons and quarks.

At 7 trillion degrees Fahrenheit, normal matter would usually break down into sub-atomic particles, the gluons and quarks that supposedly composed the earliest plasma that scientist thought resembles the thing that consisted the universe right after the Big Bang happened, 13.7 billion years ago.

According to the head of the Brookhaven program, particle physicists formerly thought that quarks and gluons would be in gas form but this new study revealed that it is behaving more like a liquid. And while they already expected to get to such extreme temperatures, they were really surprised of it having an...

Get your daily dose of science stories and announcements — for free! Norton Scientific Journal has everything covered in the field of science.

Norton Scientific Journal is organized specifically to help you find what you want. Fast. So browse in our numerous topic sections where you're surely find what you need.

On June 25, the hottest man-made temperature has been recorded in a huge atom-smasher at New York at 7.2 trillion degrees Fahrenheit — just 250,000 times hotter compared to the sun’s core.

This achievement occurred in the particle accelerator RHIC (Relativistic Heavy Ion Collider), a 3.9-kilometer tunnel under New York that researchers use to smash particles into one another to replicate conditions that happened a split-second after the Big Bang.

Creating the hot temperature in a controlled environment was done in Brookhaven National Laboratory through colliding gold nuclei with each other at the speed of light.

Once the collision of ions happened, the huge amount of energy it emits will melt the protons and neutrons in the gold nuclei, turning into a liquid composed of smaller particles called gluons and quarks.

At 7 trillion degrees Fahrenheit, normal matter would usually break down into sub-atomic particles, the gluons and quarks that supposedly composed the earliest plasma that scientist thought resembles the thing that consisted the universe right after the Big Bang happened, 13.7 billion years ago.

According to the head of the Brookhaven program, particle physicists formerly thought that quarks and gluons would be in gas form but this new study revealed that it is behaving more like a liquid. And while they already expected to get to such extreme temperatures, they were really surprised of it having an...