Found 1,606 quotes starting with B:

Barometer, n. An ingenious instrument which indicates what kind of weather we are having.
– Ambrose BierceRate it:
Barossa should focus on what it does best: full-bodied Shiraz
– Wolfgang BlassRate it:
Barrie has always believed in me; he was the first promoter who supported me as a solo artist, and was very responsible for the success of my solo career. He and Jenny remain true and valued friends.
– Tina TurnerRate it:
Barring a few exception, the women across the world befriend bad man not gentleman.
– Anuj SomanyRate it:
Barring that natural expression of villainy which we all have, the man looked honest enough.
– Mark TwainRate it:
Baseball has the great advantage over cricket of being sooner ended.
– George Bernard ShawRate it:
Baseball is 90 mental, the other half is physical.
– Yogi BerraRate it:
Baseball is 90 percent mental. The other half is physical.
– Lawrence Peter BerraRate it:
Baseball is 90% mental, the other half is physical.
– Yogi BerraRate it:
Baseball is a lot like life. The line drives are caught, the squibbles go for base hits. It's an unfair game.
– Rod KanehlRate it:
Baseball is almost the only orderly thing in a very unorderly world. If you get three strikes, even the best lawyer in the world can't get you off.
– Bill VeeckRate it:
Baseball is dull only to dull minds.
– Red BarberRate it:
Baseball is like church. Many attend, few understand.
– Leo DurocherRate it:
Baseball is the only field of endeavor where a man can succeed three times out of ten and be considered a good performer.
– Ted WilliamsRate it:
Baseball players are smarter than football players. How often do you see a baseball team penalized for too many players on the field
– Jim BoultonRate it:
Based on the law of probability, everything is possible because the sheer existence of possibility confirms the existence of impossibility.
– Dejan StojanovicRate it:
BASIC - A programming language. Related to certain social diseases in that those who have it will not admit it in polite company.
– AnonymousRate it:
Basic research is what I am doing when I don't know what I am doing.
– Wernher von BraunRate it:
Basically and often it takes courage to go after and suppress a task or challenge. Are you courageous at all? If Yes then, how courageous are you? If No then, you've got to be courageous. -Emeasoba George
– Emeasoba GeorgeRate it:
Basically my wife was immature. I'd be at home in the bath and she would come in and sink my boats.
– Woody AllenRate it:
Basically, I bring the truth and the light through the written word. For in such a way am I utilized as a creative human vessel.
– Cat EllingtonRate it:
Basically, it often takes a positive mindset, positive thinking, positive speaking, positive action, proactive approach and reactive approach to emancipate oneself from limitations or restrictions. ~Emeasoba George
– Emeasoba GeorgeRate it:
Basically, it takes an unyielding spirit to emerge a success or winner in anything in life. -Emeasoba George
– Emeasoba GeorgeRate it:
Basics of Macro-systems' Behavior Prediction 1 .The Macro-systems with their sometimes stochastic behavior may be (good) indicators of the dispersal of information from a holistic standpoint as well as [to be discussed later on] from a regionally molecular anisotropic zone. 2. The data scattering as for systems with quasi-vector behavior on liquids, on gases, and amongst solids, when observed from an epi-phenomenological perspective versus a phenomenological one, can show that a number of classical views on mechanistic behavior of Macro-systems may be substituted with some “machinic” view.¬ 3. The abandonment of the purely mechanistic view of interfacial forces and the adoption of thermodynamic and probabilistic concepts such as free energy and entropy have been two of the most important steps towards getting out of the worn-out mechanistic notions into more abstract conceptualization of information dispersal, working instead of causality. 4. Comparison also has to be made between hermeneutics of the notion of entropic forces within and without the framework of established thermodynamics. The very word “force” is itself a bit too collocated with entropy already. What we are after is to make it next of kin to ideas of data, information, topology of data, and mereology of stochasticity. 5. The physico-chemical potentiality inside a variety of equilibrium states can be used as a platform for anisotropic configurations whereby not only the entropy of confinement, but also the entropy of dispersal find their true meaning. 6. Within contexts of classical accumulation and energy-growth models, the verifiability of any anisotropic reversal is also demonstrable, if not by means of a set of axioms, at least by multiplicities of interfacial behavior in which experimental data find their mereotopological ratios one in the neighborhood of the other (considering first, for the sake of simplicity, our state spaces to be of metric nature). 7. Thus, there remains the reciprocity of interfacial tensions calculations where surface tension gives rise to internal polarization of those data systems by which we should like to derive either axiomatic or multiple manifoldic regionalization of PREDICTION. 8. This, with a number of Chaotic and Strange-Attractors modifications, can potentially be applied even to the whole matrix of the Universe. 9. Most of the literature on systems (information) entropy regard mesoscopic level as THE one with highest aptitude for (physicalistic) data analysis. However, there are clues to indicate that some of the main streams of structuration and dynamics are EITHER in common amongst microscopic, mesoscopic, and macroscopic systems OR holistic patterns of the said structurations and dynamics can be derived one from the other two. For example, we shall show later—in the course of the unfolding of present notions—that density functional theory (DFT) which has become the physicists’ methodology for describing solids’ electronic structure, can also be extended to other methods or systems. Few-atom systems can implicate the already explicated order of, say, biomolecules if rigorous analyses are carried out over the transition phases (translational data mappings). 10. The level of likelihood of information dispersal in any nano- and pico-systems with/without (full) attachment to and/or dependence upon chemical energy exchange, relates to dynamics of differentials of those multiplicities of tubing interconnector manifolds which potentially have the capacity to harness thermal energy. This spells that consumption of chemical energy does not necessarily always act against the infusion of energy. Here, delineation has to be made over the minutiae of the differences between Micro- and Macro-systems. Any movement of lines of demarcation throughout the said systems over the issue of (non-)interdependency of data mereotopology on chemical energy exchange, may be predicted if classical nucleation and growth theories give their place to an even more rigorous science of Differences. Repetition of (observation) of such Differences makes it possible to see through some of the most “macro” levels of systematicity [we have already run some simulations of micro-spaces’ state mappings for purposes of clarifying how many of the plasma macro jet streams inside stars or in the inter-galaxial space move. Even magneticity has turned out, with all due caution, to be comparable]. The above-said Differences actually refer to potentialities within lines of thermodynamic exchanges based upon anisotropy of information. Such exchanges nominate themselves as MO exchanges when “micro” but as some the most specific gravito-convectional currents in usages for astrology, earth science, and ecology. Thence, the science will be brought out of prognosing the detailed balance of mesoscopic (ir-)reversibility in terms of data neighborhoods connectivity. On any differentiable manifold with its own ring of universal differentiable functions, we may determine to have the “installing” of modules of Kähler spaces where demarcation could be represented by: d(a+b)=da+db, d(ab)=adb+bda, and: dλ=0(a,b∈A,λ∈k)d(a+b)=da+db,d(ab)=adb+bda,dλ=0(a,b∈A,λ∈k) Where any one module has the formalism: dbdb (b∈Ab∈A). All these having been said, again we have the problematics of still remaining within the realm of classic calculus. It is likely that for Macrosystems we may decide not to apply the classical version.
– Reza SanayeRate it:

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