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Figure of merit = 1/ Current Sensitivity.
It is defined as the current which produces a deflection of one scale division in the galvanometer and is given by, G= k/NBA where, k is the torsion constant. N is the number of turns in the coil B is the magnetic field and, A is the ares of cross section of the coil.
SilverCopperGoldIronIonized airleadwater with dissolved mineralsgraphiteBut it also depends on which you wish to conduct.For thermal conductivity, the top group, in order of merit, are graphene, diamond, silver, copper.For acoustic (sound) conductivity, you need a rigid non - lossy material, and Beryllium is probably at the top, but with similar metals such as tungsten and steel not far behind.And Brahms and Bach have their followers in the music field.
You need to use a more sophisticated term other than "nuke" to merit a coherent answer. Offhand, it could be anything from getting a revealing image of your teeth, to turning the largest cities on earth into cinders in a heartbeat.
From Wikipedia: Dirac shared the 1933 Nobel Prize for physics with Erwin Schrödinger "for the discovery of new productive forms of atomic theory". Dirac was also awarded the Royal Medal in 1939 and both the Copley Medal and the Max Planck Medal in 1952. He was elected a Fellow of the Royal Society in 1930, an Honorary Fellow of the American Physical Society in 1948, and an Honorary Fellow of the Institute of Physics, London in 1971. He received the inaugural J. Robert Oppenheimer Memorial Prize in 1969. Dirac became a member of the Order of Merit in 1973.
yes
It is the amount if current it takes for unit deflection in the given galvanometer. k = I/theta Where k is the figure of merit, I is the current supplied and Theta equals the number of divisions of deflection.
it is amount if current takes for unit diffection in given galvanometer
Figure of merit = 1/ Current Sensitivity.
It is defined as the current which produces a deflection of one scale division in the galvanometer and is given by, G= k/NBA where, k is the torsion constant. N is the number of turns in the coil B is the magnetic field and, A is the ares of cross section of the coil.
A figure of merit correlated with the energyefficiency of a device. It can be calculated by the product of propagation delay time with power dissipation.
A figure of merit correlated with the energyefficiency of a device. It can be calculated by the product of propagation delay time with power dissipation.
Well it has No merit, it mainly depends upon you entry test..
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The merit system refers to a personnel management approach where job candidates are selected, promoted, and rewarded based on their abilities, qualifications, and performance. The merit principle, on the other hand, is a broader concept emphasizing that individuals should be appointed to positions in the government based on their qualifications and skill rather than their political connections or other external factors. In essence, the merit principle guides the implementation of the merit system.
Merit Principles require selection and advancement based on qualifications, while Prohibited Practices involve discriminating against individuals based on factors like race, gender, or political affiliation. Essentially, Merit Principles focus on merit-based decisions, whereas Prohibited Practices involve unfair discrimination.
A figure of merit for copper is 231A figure of merit for stainless steel is 8.1A figure of merit for steel (mild) is 32A figure of merit for aluminum is 136.The units are BTU / H * ft * Degrees F.For a given length of time copper will conduct almost twice as much heat as aluminum and 28 times as much as stainless steel (but only about 7 times as much as regular steel). This is why there are copper bottomed stainless steel pots.From the definition of thermal conductivity: for 1 Ft cube of copper it would take 231 BTU per hour to maintain a 1 degree (Fahrenheit) temperature difference across the the length of the cube. This compares to 0.04 BTU for a 1 ft. cube of fiberglass insulation.