The only current application of fusion is in fusion-type nuclear weapons. We cannot control fusion to use it in power sources, so we are limited to just a single use or application.
A nuclear fusion reaction has the potential to produce large amounts of energy, far exceeding current nuclear fission reactions. It is estimated that a single fusion reaction could potentially yield millions of kilowatt-hours of energy. However, practical implementation and scaling of fusion as a viable energy source on a commercial scale is still a significant challenge.
With current technology we cannot produce a sustained fusion reaction and the experimental fusion reactors we do have use more energy than they generate.
Nuclear fusion is not yet a controlled reaction on Earth because it requires extremely high temperatures and pressures to overcome the electrostatic repulsion between positively charged atomic nuclei. Current technology is still unable to sustain these conditions reliably and efficiently for energy production. Scientists are working on developing fusion reactors, but more research and technological advancements are needed to achieve practical fusion energy.
Yes, nuclear fusion is feasible as a potential source of clean energy. Both magnetic confinement fusion (MCF) and inertial confinement fusion (ICF) are promising approaches being researched to achieve practical fusion energy production, each with its own advantages and challenges. Continued advancements in these technologies have the potential to make fusion energy a reality in the future.
It is not possible to give an answer as there is no practical design for a fusion power plant. So far scientists have been struggling just to achieve fusion in experimental apparatus. How the energy would be extracted if and when fusion can be achieved is not known, and to get an idea of its thermodynamic efficiency you would need to know this.
what are the practical application of the center of pressure
cite some practical application and geometry
The application of scientific discoveries to practical use is called technology. Technology is defined as the practical application of knowledge especially in a particular area.
"Practical application" can best be defined by contrasting it to "theoretical application". A practical application is the real or tangible use of a thing or a concept, whereas the outcome of a theoretical application is nontangibe results not subject to objective measurement because the thing or theory has not actually been put to use.
A real life demonstration is a practical application of something
a simple machine
Yes, this is correct!The application of scientific knowledge for practical purposes is engineering.
The practical application of science is technology, such as your computer and the internet.
the practical application of science
Technology
The word that means concerned with theories rather than their practical application is "theoretical."
Alternating current (AC) was initially discovered by Michael Faraday in 1831 by magnetic experimentation. The first AC instrument was constructed in 1832, but the first practical application of AC wasn't until 1855.