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In The Matrix Revolutions, Smith's abilities are pushed to their limit as he assimilates more and more victims, including Seraph and, inevitably, The Oracle. The film's penultimate scene sees Neo to jack into the Matrix one last time, where he and Agent Smith engage in a cataclysmic battle. Neo quickly realizes that he and Smith are evenly matched, and he allows Smith to assimilate him. It's here that Neo's Christ parallels come full circle, as he sacrifices himself by instructing the machines to surge his body with energy in the real world. While this causes the desired effect and defeats Smith, Neo's death also causes a total continuity reboot of the Matrix. This recalibration at the climax of the movie implies that there will be a lasting era of peace, one in which humans will be able to choose to leave the Matrix if they so desire that is seemingly akin to biblical ideals of faith.
Above all else, the true intent and meaning of The Matrix franchise is to impart the inherent value of free will among sentient life. In the first movie, Thomas Anderson (aka Neo) discovers that his entire life has simply been the simulation of decision-making; all of his choices have been made for him by machines. 1999's The Matrix ends with him rejecting this outcome and choosing to accept his destiny as The One, which he believes allows him to forge his own path. However, The Matrix Reloaded ultimately subverts this belief, as Neo once again discovers that his destiny is not his own: The Prophecy of The One is merely a role that the machines designed.
As the uncoated prototypes were shown to swell during the release test, the coated specimens were carefully observed to highlight any modifications in shape and/or dimensions of the PVA core and possible impact on the coating integrity. Penetration of the aqueous medium was expected to start from the uncoated surfaces proceeding lengthwise, and to also occur through the coated lateral surface moving towards the center of the matrix. In this regard, the rate of radial penetration should be affected by the formulation and thickness of the coating. In the Eudragit® RS/RL-coated samples, the applied film was apparently able to adapt to the expansion of the PVA matrix in the radial direction until a breaking point was reached. This impacted on drug release, which was faster from R4 samples having ~115 μm thick coating. Considering R8 prototypes with a ~175 μm coating thickness, a remarkable slowdown in release was observed. Conversely, a further increase in the coating thickness up to ~450 μm (i.e., R16 samples) resulted in a much smaller reduction in the release rate.
"A laminate comprising a film (1) of filled expanded polytetrafluoroethylene and a layer (2) of electrically conductive metal attached to at least one side thereof characterised in that the film (1) contains 25-85 volume percent particulate filler having a high dielectric constant; the film (1) has a thickness of between 0.0025 and 0.0127 mm (0.0001 and 0.005 inches); the film (1) is densified to form a film which is substantially free of visual pinholes; and the film (1) has a matrix tensile strength of at least 183 kg/cm2 (2600 psi)."
The decision explicitly mentioned that the Opponent had admitted during the written procedure that the documents cited as support for an alleged prior use were not novelty destroying since the product RO 2800 did not exhibit the required capacitance and since the product RT Duroid 6010 did not have the required thickness, and that novelty had not been disputed by the Opponent during the oral proceedings. The Opposition Division, as well as the Opponent, regarded D1 as the closest prior art, since it related to laminates comprising a highly filled thin polytetrafluoroethylene (PTFE) film with a metallic layer. It stated that the PTFE film comprised in the laminate of D1 differed from the film required in Claim 1 of the opposed patent in capacitance and in matrix tensile strength (MTS). The objective technical problem was to provide laminates similar to those disclosed in D1 (i.e. comprising a highly filled thin PTFE film with a metallic layer and being substantially free of visual pinholes) having a high capacitance and a high MTS. Even if the solution to the first aspect of the technical problem could be regarded as obvious in view of D2 referred at page 4, lines 55 to 56 of D1 in form of its corresponding US patent 4 335 180 (D2'), the solution to the second aspect of this problem could not be derived in an obvious manner from D4. The Opposition Division took the view that Example 4 of D4, where an asbestos filled PTFE film had been stretched, and Example 16 of D4, where an unfilled PTFE film had been stretched and densified, related to individual teachings and that there was no incentive to combine these two examples. Furthermore, the film of Example 4 of D4 had a thickness well above that required in the patent in suit, and also contained a fibrous material (i.e. asbestos), the use thereof, according to D1, resulting in the presence of pinholes in the film. Concerning independent process Claim 6, the Opposition Division considered that this Claim was in fact directed to a method for producing a laminate according to the main claim, the novelty and inventive step of which had been acknowledged, and met therefore the requirements of Articles 54 and 56 EPC.
"A laminate comprising a film (1) of filled expanded polytetrafluoroethylene and a layer (2) of electrically conductive metal attached to at least one side thereof characterised in that the film (1) contains 25-85 volume percent particulate filler having a high dielectric constant; the film (1) has a thickness of between 0.0025 and 0.127 mm (0.0001 and 0.005 inches); the film (1) is densified to form a film which is substantially free of visual pinholes and has a structure comprising nodes interconnected by fibrils; the film (1) has a matrix tensile strength of at least 183 kg/cm2 (2600 psi); said laminate having a capacitance of greater than 100.75 picofarads/cm2 (650 picofarads per square inch)."
"A laminate comprising a film (1) of filled expanded polytetrafluoroethylene having a structure comprising nodes interconnected by fibrils; and a layer (2) of electrically conductive metal attached to at least one side thereof characterised in that the film (1) contains 25-85 volume percent particulate filler having a high dielectric constant; the film (1) has a thickness of between 0.0025 and 0.127 mm (0.0001 and 0.005. inches); the film (1) is densified to form a film which is substantially free of visual pinholes and has a structure comprising nodes interconnected by fibrils; the film (1) has a matrix tensile strength of at least 183 kg/cm2 (2600 psi); said laminate having a capacitance of greater than 100.75 picofarads/cm2 (650 picofarads per square inch)."
3.2. Claim 1 differs from Claim 1 of this set of claims by (a) the insertion of the expression "having a structure comprising nodes interconnected by fibrils" between "expanded polytetrafluoroethylene" and "and a layer (2)" and (b) by the incorporation of the expression "has a structure comprising nodes interconnected by fibrils" between "substantially free of visual pinholes;" and "the film (1) has a matrix tensile strength of at least 183 kg/cm2 (2600 psi)".
Void formation in lead-free solder joints, away from the joint interface, has been observed after solid-state aging. These voids are attached to intermetallic precipitates in the solder matrix, especially to those that are adjacent to the layered intermetallic at the joint interface. Two potential void formation mechanisms are discussed. The mechanism proposed to describe void formation is that a flux of vacancies is created due to volume contraction during solid-state reaction. The ripening process among the intermetallics also assists this process. Using the suggested mechanisms, the void size was estimated. This phenomenon differs from the classical Kirkendall void formation because it is a nonequilibrium state of void formation and stress generation. 2b1af7f3a8