What is the Tokamak Fusion Reactor?
It means that:* There is water, and * It is under higher pressure than normal, i.e., more than 1 atmosphere (or bar) of pressure. At higher pressures, water can achieve a higher temperature (i.e., higher than 100 degrees Celsius) before it boils.
Artificial fusion has been achieved already. In fact it has been done in different ways. The problems with fusion include how to achieve it without consuming more power than is produced, and how to keep such a reaction going. The Farnsworth-Hirsch fusor is a fusion reactor a student might build as a project, but it sufferes these problems. Another problem with fusion is that many of the methods tried are expensive to test. The polywell is a reactor with such a problem. It is the result of many years of experimentation by Robert Bussard. According to Dr. Bussard, the polywell worked briefly before the apparatus burned out. Unfortunately he lost funding, and then died, and the effort is slowed as a result, so we do not actually know he was right. So the answer might be that we already have achieved practical fusion. We just have to determine that it is true. Or the answer might be that we have not achieved practical fusion, and if that is the case, it might be years or decades away.
by tilting the rotor
hitler
nothing
The first nuclear reactor was in former Soviet Union that operated in year 1954 at obninisk.
scientist
That depends on what your goal is.
The difference comes depending on what the research intends to achieve. In demographic research, for instance, quantitative research becomes more meaningful.
research objectives
research objectives
he achieved the idea of darwinism
The primary objectives in research involve the tasks that you must follow to achieve your goals. The secondary objectives involve the tasks that are desirable but not required to achieve your goals.
It seems premature to predict how this would be done, when no prototype plant has been built yet which can achieve steady operation, which will produce more power than it consumes. We are still a long way from that. But I should think the rate of fuel supply would determine the power level, this would be gaseous hydrogen isotopes deuterium and tritium. If it is a tokamak type of reactor then the magnetic field could also be varied, and cutting this off would presumably stop the reaction immediately. Similarly if a laser type reactor the laser could be switched off to stop things, or perhaps varied in power to vary the rate of reaction. It is early days yet and no engineering designs are in existence.
Its just that you have to look into your own imagination because its in you only and you should be good in science and maths the scientist is in you only main thing is to take out that capability to achieve it . Be hardworking.
It would melt first making explosion very unlikely.
it was to be a scientist of course to prove to the world it was not boring subject and that you can achieve anything with the power of science