DSpace Community:https://dspace.lboro.ac.uk/2134/1112016-12-10T16:32:40Z2016-12-10T16:32:40ZOn the Identical Simulation of the Entire UniverseKavak, Mesuthttps://dspace.lboro.ac.uk/2134/234262016-12-09T20:02:11Z2016-01-01T00:00:00ZTitle: On the Identical Simulation of the Entire Universe
Authors: Kavak, Mesut
Abstract: A short time ago, I published an article about deceleration of the universe. It was especially based on entropy, and it explains how does matter work, produce free energy by using its own creation motion without external energy; also is about instant communication and jumping interstellar by imitating starting condition of matter called as big-bang as a side effect on itself that the same with faster than light expansion as creation motion and outer space motion are accepted together. In this work, it was performed some analysis of the some specific subjects such as deceleration, uncertainty, particle formation, black hole, gravitation, energy, mass and light speed for identical simulation computations of the entire universe as the most sensitive as possible being related that article. There are some informations about escaping from black holes, event horizon lengths, viscosity of free space, re-derivation of Planck constants and infrastructure of some basic laws of existence mathematically as matter is directly dependent of geometric rules. Also, some elements were given for the readers to solve some required constants as the most sensitive manner. As the constants are not enough in the name of engineering, also finally I found a working algorithm which reduces process number of the power series to process number of the quadratic equations like calculating a root of an integer as an irrational number by solving equation; so also it can be used to calculate trigonometric values in the best manner for simulations of the entire universe besides physical constants as irrational values. Also there are new informations about the pioneer anomaly, gamma ray burst and non-observational universe.2016-01-01T00:00:00ZOn the Uncertainty PrincipleKavak, Mesuthttps://dspace.lboro.ac.uk/2134/234252016-12-09T19:59:40Z2016-06-20T00:00:00ZTitle: On the Uncertainty Principle
Authors: Kavak, Mesut
Abstract: Analysis of the laws which form, direct universe and of the interacting elements in the interactions emerging by
these laws. Forming the theoretical, philosophical infrastructure of the some physical concepts and phenomena such as kinetic
energy, uncertainty [1], length contraction [2], relative energy transformations, gravity, time and light speed to understand
universe better manner as well as possible. Almost any physical subject takes us easily to the same point by visiting the other
subjects because of the creation type of matter as there is no alternative. Every mathematical equation is a production of a
thinking; so it does not have to be right always as it may has different meanings for different minds and because of wrong
thinking, assembly elements even if it may has a certain information sometimes or usually. If our portion is, our portion is as we
took some pickaxes and shovels, starting for science mining as the below to understand universe better manner, if it is possible
especially by strong evidences by thinking first as simple as possible. Only one pencil and one paper are enough. At this situation,
the biggest problem is to be one of them exists and the other does not of them.
Description: Mesut Kavak Analysis of the laws which form, direct universe and of the interacting elements in the interactions emerging by these laws. Forming the theoretical, philosophical infrastructure of the some physical concepts and phenomena such as kinetic energy, uncertainty, length contraction, relative energy transformations, gravity, time and light speed to understand universe better manner as well as possible. Some informations about re-derivation of Planck constants, faster than Light, interstellar Jump and instant communication, length contraction, imaginary time, time travel, real black hole radiuses, free energy, new type of closed system thrust engine for classic space travels without external energy, terraforming of Mars, asteroid mining, superiour processors. Also some proofs about Goldbach conjecture, twin primes, Mersenne and Fermat primes, palindromic primes, p=np problem, Collatz problem.2016-06-20T00:00:00ZUniversal Economic Plan Based Law Constitutions of Kingdom and NationsKavak, Mesuthttps://dspace.lboro.ac.uk/2134/234242016-12-09T19:54:21Z2016-01-01T00:00:00ZTitle: Universal Economic Plan Based Law Constitutions of Kingdom and Nations
Authors: Kavak, Mesut
Abstract: In this work, touched on some social issues whatever the result, and a raising awareness was aimed by some new technological upgrades for vital infrastructures of states, social order and economic plan. The main aim is one world order which has no king and accepts nations as local governances as a requirement of hierarchical order. It is completely based on economic benefits of all nations as there is no alternative to establish a healthy economic order as economic management is directly related with laws. As the important is a law exists or not, or is just or not for justice, also it encourages to develop organic laws in state institutions as it recognizes any state institution as autonomous. This building is a building which is actually dependent of economy, counts states of the world as local governances as a requirement of one world order; does not stipulate working and military service; promises that no charge for houses, energy, education, judgment, security, health care, public transport, marriage; promises removing armies limited manner, removing nuclear weapons and establishing in space but the special conditions. Also there are many new technological upgrades for vital infrastructure of states, space technologies are included as well.2016-01-01T00:00:00ZAnalysis of horizontal deformations to allow the optimisation of geogrid reinforced structuresScotland, Ianhttps://dspace.lboro.ac.uk/2134/233232016-12-01T16:06:32Z2016-01-01T00:00:00ZTitle: Analysis of horizontal deformations to allow the optimisation of geogrid reinforced structures
Authors: Scotland, Ian
Abstract: Geogrid reinforced structures have been successfully used for over 25 years. However their design procedures have remained largely focused on ultimate failure mechanisms, originally developed for steel reinforcements. These are widely considered over conservative in determining realistic reinforcement and lateral earth stresses. The poor understanding of deformation performance led many design codes to restrict acceptable soils to selected sand and gravel fills, where deformation is not as concerning.
Within UK construction there is a drive to reduce wastage, improve efficiency and reduce associated greenhouse gas emissions. For geogrid reinforced structures this could mean increasing reinforcement spacing and reusing weaker locally sourced soils. Both of these strategies increase deformation, raising concern about the lack of understanding and reliable guidance. As a result they fail to fulfil their efficiency potential.
This Engineering Doctorate improved the understanding of horizontal deformation by analysing performance using laboratory testing, laser scanning industry structures and numerical modelling. Full-scale models were used to demonstrate a reduction in deformation by decreasing reinforcement spacing. Their results were combined with primary and secondary case studies to create a diverse database. This was used to validate a finite element model, differentiating between two often used construction methods. Its systematic analysis was extended to consider the deformation consequences of using low shear strength granular fills. The observations offered intend to reduce uncertainty and mitigate excessive deformations, which facilitates the further optimisation of designs.
Description: A dissertation thesis submitted in partial fulfilment of the requirements for the award of the
degree Doctor of Engineering (Eng.D.), at Loughborough University.2016-01-01T00:00:00Z