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scientist-philosophers like Aristotle had access to a very limited amount of the kind of machines scientists need to discover elements, like microscopes, mass spectrometers and linear accelerators.
Strictly speaking, there are no atomic accelerators except as the target. To accelerate tiny masses, they must be charged. Particles that are accelerated are almost universally small - nuclear particles, electrons or tiny ions such as helium ions. Anything heavy would be the target. Targets must be stable and have low vapour pressures as the accelerator will work only at incredibly high vacuum.
Technology has played a significant role in the production of transuranic elements by enabling advanced methods of nuclear synthesis. High-energy particle accelerators have been crucial in bombarding heavy target nuclei with protons or other particles to induce nuclear reactions that create transuranic elements. Additionally, sophisticated detection and measurement techniques, such as mass spectrometry and gamma-ray spectroscopy, have allowed scientists to identify and characterize these elements. Overall, technology has provided the tools necessary for the controlled production and study of transuranic elements.
No. Magnesium is an element. No chemical or biological process can synthesize elements. We get magnesium from food.
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particle accelarators
They accelerate particles using magnets. Once going at speed close to the speed of light, particles smash into each other. Accelerators are used to examine the properties of subatomic particles. There is an accelerator in Chicago called Fermilab, and another, larger on in Europe. See the large hadron collider for more info on current accelerators.
What essentially happens is two nuclei of two different (or the same) elements are smashed together; sometimes (although rarely) parts of the nuclei will stick together instead of getting obliterated or shot out. It is through this process that particle accelerators are used to create elements; however, it is worth noting that these elements are unstable due to the nucleus's atomic radius being to large; it will be greater than the range of the residual strong force.
In particle accelerators.
It depends on the element. Some synthetic elements can be made by bombarding the nucleus of a lighter element with protons or alpha particles. The heavier synthetic elements are made by colliding atomic nuclei with one another.
scientist-philosophers like Aristotle had access to a very limited amount of the kind of machines scientists need to discover elements, like microscopes, mass spectrometers and linear accelerators.
in nuclear reactors and particle accelerators
Transuranium metals
Scientists have learned how to synthesize new elements. The ability to synthesize human tissues is a great medical advance.
Strictly speaking, there are no atomic accelerators except as the target. To accelerate tiny masses, they must be charged. Particles that are accelerated are almost universally small - nuclear particles, electrons or tiny ions such as helium ions. Anything heavy would be the target. Targets must be stable and have low vapour pressures as the accelerator will work only at incredibly high vacuum.
Particle Accelerators.
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