Asymmetric multiprocessing - In asymmetric multiprocessing (ASMP), the operating system typically sets aside one or more processors for its exclusive use. The remainder of the processors run user applications. As a result, the single processor running the operating system can fall behind the processors running user applications. This forces the applications to wait while the operating system catches up, which reduces the overall throughput of the system. In the ASMP model, if the processor that fails is an operating system processor, the whole computer can go down. Symmetric mMultiprocessing - Symmetric multiprocessing (SMP) technology is used to get higher levels of performance. In symmetric multiprocessing, any processor can run any type of thread. The processors communicate with each other through shared memory. SMP systems provide better load-balancing and fault tolerance. Because the operating system threads can run on any processor, the chance of hitting a CPU bottleneck is greatly reduced. All processors are allowed to run a mixture of application and operating system code. A processor failure in the SMP model only reduces the computing capacity of the system. SMP systems are inherently more complex than ASMP systems. A tremendous amount of coordination must take place within the operating system to keep everything synchronized. For this reason, SMP systems are usually designed and written from the ground up
That's like asking what is the difference between a potato and a plant. Nuclear fission is the splitting of atoms to release binding energy. Nuclear is the overall concept that structure and energy of the atom is contained within the nucleus.This answer assumes, by virtue of the category the question was placed in, that the intended topic is nuclear physics, and not biology, to which it could just have as easily been applied.
Mass defect is associated with nuclear reactions and nuclear binding energy. It refers to the difference between the measured mass of an atomic nucleus and the sum of the masses of its individual protons and neutrons. This difference is released as energy when the nucleus is formed.
It is basically the difference in energy between the original nucleus (u-235 or Pu-239) and the two smaller nuclei formed in the fission process. This arises because of the forces between the protons and neutrons, the strong nuclear force, and the electrostatic repulsion between protons. In effect the difference in mass is converted to energy.
Yes, the conventional explosives would trigger an explosion of the conventional explosives inside the nuclear bomb which would blow apart the nuclear components of the nuclear bomb, causing significant alpha emitter radiological contamination but no nuclear yield.
Planets do not naturally generate nuclear fusion. Nuclear fusion occurs in stars, where the extreme heat and pressure at the core allows hydrogen nuclei to merge and form helium, releasing energy in the process. Planets lack the conditions necessary for sustained nuclear fusion reactions.
The three types of mitosis are symmetric, asymmetric, and open. Symmetric mitosis results in two daughter cells with similar properties, while asymmetric mitosis generates daughter cells with different fates. Open mitosis involves the breakdown of the nuclear envelope during cell division.
there is none
The difference between atomic fission and atomic nuclear is that they both have something to do with atomic and war. Hope this helps I am kind of in a rush......Smile!
The key difference between nuclear fission and nuclear fusion is the process by which they release energy. Nuclear fission involves splitting a heavy nucleus into smaller nuclei, while nuclear fusion involves combining light nuclei to form a heavier nucleus.
Nuclear because of urenium ana diesel because of petrolium product
a nuclear reactor converts binding energy into heat. a nuclear power plant uses a nuclear reactor to generate electricity.
Nuclear reactions in a nuclear reactor are controlled reactions. The reactions in the atomic bomb are not controlled reactions
There isn't much difference in these terms. Both refer to nuclear weapons, and they are general terms that can pretty much be used interchangeably.
energy release aka yield
There is none.
Nuclear fission involves splitting atoms to release energy, while nuclear fusion involves combining atoms to release energy.
The term that describes the tiny difference in mass between the products and reactants of a nuclear change is "mass defect." This difference in mass is converted into energy according to Einstein's famous equation E=mc^2, which explains the principle behind nuclear reactions.