Tham khảo tài liệu 'thermodynamics interaction studies solids, liquids and gases part 13', kỹ thuật - công nghệ, cơ khí - chế tạo máy phục vụ nhu cầu học tập, nghiên cứu và làm việc hiệu quả | 710 Thermodynamics - Interaction Studies - Solids Liquids and Gases What is emitted as an electron is a burst of energy which propagates continuously as a wave and going through both slits illuminates the detection screen in the typical interference pattern. This interference pattern is clearly visible when a large beam of energy illuminates the detection screen all at once. If we systematically lower the intensity of such electron beam the intensity of the illuminated interference pattern also correspondingly fades. For small bursts of energy the interference pattern illuminated on the screen may be undetectable as a whole. However when at a point on the screen local equilibrium occurs we get a light burst that in effect discharges the screen of an amount of energy equal to the energy burst that illuminated the screen. These points of discharge will be more likely to occur at those areas on the screen where the illumination is greatest. Over time we would get these dots of light filling the screen in the interference pattern. We have a reciprocal relation between energy and time . Thus lowering energy intensity while increasing time duration is equivalent to increasing energy intensity and lowering time duration . But the resulting phenomenon is the same the interference pattern we observe. This explanation of the double-slit experiment is logically consistent with the probability distribution interpretation of Quantum Mechanics. The view we have of energy propagating continuously as a wave while manifesting locally in discrete units equal size sips when local equilibrium occurs helps resolve the wave-particle dilemma. Explanation summary The argument presented above rests on the following ideas. These are consistent with all our results presented in this Chapter. 1. The electron emitted is not be the same as the electron detected . 2. Energy propagates continuously but interacts discretely when equilibrium occurs 3. We have accumulation of energy before .
