What Makes Acids and Bases React 2025

What Makes Acids and Bases React 2025

Book-Based Explanation (University Level) Acids and bases react due to the fundamental chemical interactions involving protons (H⁺ ions) and hydroxide ions (OH⁻ ions). This is best understood through several key theories that explain their behavior: 1. Arrhenius Theory - Acid: A substance that increases the concentration of H⁺ ions in aqueous solution. - Base: A substance that increases the concentration of OH⁻ ions in aqueous solution. - Reaction: When an acid and base are mixed, H⁺ from the acid reacts with OH⁻ from the base to form water (H₂O). This is called a neutralization reaction. Example: HCl (aq) + NaOH (aq) → NaCl (aq) + H₂O (l) 2. Brønsted-Lowry Theory - Acid: Proton donor. - Base: Proton acceptor. - This theory expands on acid-base behavior even in non-aqueous solutions. Example: NH₃ + H₂O → NH₄⁺ + OH⁻ Here, water donates a proton (acting as an acid) and ammonia accepts it (acting as a base). 3. Lewis Theory - Acid: Electron pair acceptor. - Base: Electron pair donor. - This theory is more generalized and includes a wider range of chemical reactions. Example: BF₃ (acid) + NH₃ (base) → F₃B←NH₃ In this interaction, ammonia donates an electron pair to boron trifluoride, forming a coordinate covalent bond. Why Do They React? - The driving force of an acid-base reaction is the movement of protons and/or electrons to achieve a more stable, lower-energy state. - These reactions are often exothermic, releasing energy. - The products are typically more stable than the reactants (e.g., water and a salt in neutralization reactions).

Easy Explanation (With Examples) Let’s make this super simple! Think of acids as being a little like "proton throwers" – they have extra protons (H⁺ ions) and want to get rid of them. Bases are like "proton catchers" – they want to grab those protons. Simple Analogy: Imagine acids as people giving away basketballs (protons), and bases are players trying to catch those balls. When a basketball (proton) is passed from the acid to the base, they both feel good – this is the chemical reaction happening! Everyday Example: - Vinegar (acid) reacts with baking soda (base). - It bubbles and fizzes because a chemical reaction happens that makes carbon dioxide gas. Equation (simplified): Acid + Base → Salt + Water Another Simple One: - Lemon juice (acid) and soap (base) can neutralize each other. - The sour and slippery cancel out, making the mixture neutral. So, acids and bases react because one wants to give something (a proton), and the other wants to take it. Together, they form something more balanced. Disclaimer: The easy explanation is designed to help you understand the basic concept using simple words and analogies. However, if you're writing an answer for an exam or assignment, please stick to the book-based explanation above. We’re just trying to make the learning process fun and clear. Scoring less by using simplified answers in exams is not our responsibility. External Resource: For a deeper understanding, you can read the Wikipedia page: Acid–Base Reaction https://en.wikipedia.org/wiki/Acidbase_reaction Related Articles from EdgyThoughts.com: - What If Quantum Computers Could Simulate an Entire Human Brain? https://edgythoughts.com/what-if-quantum-computers-could-simulate-an-entire-human-brain - How Do Enzymes Control Metabolism 2025 https://edgythoughts.com/how-do-enzymes-control-metabolism-2025 Read the full article

How Does Quantum Entanglement Work (2025)

How Does Quantum Entanglement Work (2025)

Book-Style Answer (University Level)

Introduction Quantum entanglement is one of the most mysterious and fascinating phenomena in quantum mechanics. It occurs when two or more particles become connected in such a way that the state of one particle instantly influences the state of the other, no matter how far apart they are. This phenomenon defies classical physics and has significant implications for quantum computing, cryptography, and even our understanding of reality. First proposed by Albert Einstein, Boris Podolsky, and Nathan Rosen in 1935 as part of the EPR paradox, quantum entanglement challenges classical notions of locality and determinism. It was later experimentally confirmed through Bell’s Theorem, which demonstrated that entangled particles exhibit correlations that cannot be explained by classical physics alone. The Fundamentals of Quantum Entanglement To understand how quantum entanglement works, we need to explore some basic principles of quantum mechanics: - Superposition: A quantum particle (such as an electron or photon) can exist in multiple states at once until it is measured. - Wavefunction Collapse: When a quantum system is observed, it "collapses" into a definite state. - Quantum Correlation: In an entangled system, the measurement of one particle immediately affects the state of the other, regardless of distance. Entanglement occurs when two particles interact and then separate while maintaining a shared quantum state. Once entangled, measuring one particle’s property (such as spin or polarization) will instantaneously determine the corresponding property of the other particle. This effect happens faster than the speed of light, leading to deep philosophical and scientific questions about the nature of reality. How Entanglement Works in Practice - Creating Entangled Particles - Entanglement is typically achieved through processes such as spontaneous parametric down-conversion (SPDC) in which a high-energy photon splits into two lower-energy entangled photons. - It can also occur naturally in quantum systems, such as in atomic interactions or electron pairs in superconductors. - Measuring an Entangled Pair - If two particles are entangled in terms of spin, one might have spin-up while the other has spin-down (opposite states). - If we measure the spin of one particle and find it to be spin-up, the other particle will immediately collapse into the spin-down state, even if they are light-years apart. - Bell’s Theorem and Non-Locality - Classical physics assumes that objects are independent and their properties exist before measurement. - Quantum mechanics, however, suggests that entangled particles do not have a definite state until measured. - Bell’s inequality experiments confirmed that entanglement does not rely on hidden variables but is a real physical effect.

Applications of Quantum Entanglement Quantum entanglement has real-world applications in various fields: 1. Quantum Computing - Quantum computers use entanglement to perform complex calculations much faster than classical computers. - Qubits (quantum bits) can be entangled to process multiple calculations at once, increasing computational power exponentially. 2. Quantum Cryptography - Quantum key distribution (QKD) uses entangled particles to create ultra-secure communication channels. - Any attempt to intercept the entangled particles alters their state, making eavesdropping impossible. 3. Quantum Teleportation - Scientists have successfully transmitted quantum information between entangled particles over long distances. - While this is not "teleportation" in the sci-fi sense, it allows for instantaneous data transfer in quantum networks. Does Quantum Entanglement Violate Relativity? One of the biggest mysteries of quantum entanglement is that it seems to involve instantaneous communication, which contradicts Einstein’s theory of relativity (which states that nothing can travel faster than light). However, entanglement does not transmit usable information faster than light—it only affects the measurement outcomes of particles. The paradox remains one of the great unsolved mysteries in modern physics. Conclusion Quantum entanglement is a fundamental aspect of quantum mechanics that challenges our understanding of reality. It has been experimentally verified and has crucial applications in computing, cryptography, and communication. As research advances, entanglement could lead to new breakthroughs in technology and reshape our understanding of the universe.

Easy Explanation (For Conceptual Understanding)

What Is Quantum Entanglement? Imagine you and your best friend each take a pair of magical dice. These dice are special because no matter how far apart you are, when you roll one, the other instantly shows the same result! Even if one of you is on Earth and the other is on Mars, as soon as one dice lands on a number, the other dice will change to match it immediately. This is what happens in quantum entanglement. When two particles become linked, measuring one automatically tells you about the other—no matter how far apart they are. How Does It Work? - Particles Get Linked – Two particles start in the same system and become "connected" through a process like splitting a photon. - They Stay Connected – Even if they are moved far apart, they still remain mysteriously linked. - Measuring One Affects the Other – The moment we check the state of one particle, the other instantly changes to match (or complement) it. Why Is It Important? - Faster, Smarter Computers – Quantum computers use entanglement to solve problems much faster than regular computers. - Super-Secure Messages – Banks and governments could use entangled particles to send unbreakable encrypted messages. - Teleporting Information – Scientists are learning how to "teleport" data across large distances using quantum entanglement. Does It Break Science? Even though quantum entanglement seems to allow "instant" communication, it doesn’t let us send messages faster than light. Scientists are still trying to figure out exactly how and why it works, making it one of the biggest mysteries in physics!

Disclaimer

This easy explanation is meant to help you understand quantum entanglement conceptually. However, it should not be used in exams or academic papers. For exams, always refer to the detailed book-style explanation. If you rely only on the simple version and lose marks, we are not responsible. We provide these explanations only to make learning easier! Read Our Past Blog: What If Humanity Became a Type III Civilization? 2025For more information, check this resource.

How Does Quantum Entanglement Work (2025) - Everything You Need to Know

Understanding quantum in DepthRelated Posts- How Does Quantum Entanglement Work (2025) - How Does Quantum Entanglement Work (2025) - How Does Quantum Entanglement Work (2025) - How Does Quantum Entanglement Work (2025) Read the full article

@genmhayden @doescience @energy .@doescience @haydencenter  @nsagov @gchq .@gchq .@intel .@apple @darpa  Asked differently: Can you set with emmitted sourcedraindevice  Combinations of electronpairs to (!)stop an axis in cotonians axises quarterniosn isay ofcourse youcan  Itislike photon bumps into roadblock electron against its existing momentum Thereon canyouevenmake combinatiosn to alter the basis ofthe phto sons axises Ie the fractal parts on and off at simplest form This ******** The command injection onthebasis oftheoctonian axis with iftheraerephotons itis already a command Lets say add Andifnot or stopepd an axis itis already a combination of the com mand basis  This expands into fractals  Steered ****** ///

@genmhayden @doescience @energy .@doescience @haydencenter  @nsagov @gchq .@gchq .@intel .@apple @darpa  Asked differently: Can you set with emmitted sourcedraindevice  Combinations of electronpairs to (!)stop an axis in cotonians axises quarterniosn isay ofcourse youcan  Itislike photon bumps into roadblock electron against its existing momentum Thereon canyouevenmake combinatiosn to alter the basis ofthe phto sons axises Ie the fractal parts on and off at simplest form This ******** The command injection onthebasis oftheoctonian axis with iftheraerephotons itis already a command Lets say add Andifnot or stopepd an axis itis already a combination of the com mand basis  This expands into fractals  Steered ****** ///

@genmhayden @doescience @energy .@doescience @haydencenter @nsagov @gchq .@gchq .@intel .@apple @darpa Asked differently: Can you set with emmitted sourcedraindevice Combinations of electronpairs to (!)stop an axis in cotonians axises quarterniosn isay ofcourse youcan Itislike photon bumps into roadblock electron against its existing momentum Thereon canyouevenmake combinatiosn to alter the basis…

View On WordPress

#lets #try #this #tree #function #in #LNL6 #LNL7 .@mathematics @mat hematics .@apple .@women @women @girls @wired @wireduk @intel @nsagov @gchq @darpa @amd @arm @samsung @huawei .@energy .@intel .@ornl we dothe bubble tree or butttreee functions with the static electronpairi ng  o_O O_o thesewouldbe abit static but these in rings and ase t of frequencybombs and each is a superposition until a photonic bea m hits some out and some not into frequencycomb array andor channel a nd the others andorthe result relayedon with clockatom lets work on t hese treefunctions abit harder math geniusses which octonians and quarternions canyou implement into these which chipscaling optimis iation canyou upscale thenaroudn these i have absolutelynoidea wh ich variants youchose likely wicket highdensity hardtoreadout versions isay lets reemphasise abiton buttttree bubbletree with the stat ic electron contra pairing and meld it to octonians your take onthi s? ihave 0 feedback none nothing its  a braincooked vague sens e of direction now whatwouldbe a hardened sketched invention otherwise

#lets #try #this #tree #function #in #LNL6 #LNL7 .@mathematics @mat hematics .@apple .@women @women @girls @wired @wireduk @intel @nsagov @gchq @darpa @amd @arm @samsung @huawei .@energy .@intel .@ornl we dothe bubble tree or butttreee functions with the static electronpairi ng  o_O O_o thesewouldbe abit static but these in rings and ase t of frequencybombs and each is a superposition until a photonic bea m hits some out and some not into frequencycomb array andor channel a nd the others andorthe result relayedon with clockatom lets work on t hese treefunctions abit harder math geniusses which octonians and quarternions canyou implement into these which chipscaling optimis iation canyou upscale thenaroudn these i have absolutelynoidea wh ich variants youchose likely wicket highdensity hardtoreadout versions isay lets reemphasise abiton buttttree bubbletree with the stat ic electron contra pairing and meld it to octonians your take onthi s? ihave 0 feedback none nothing its  a braincooked vague sens e of direction now whatwouldbe a hardened sketched invention otherwise

#lets #try #this #tree #function #in #LNL6 #LNL7 .@mathematics @mathematics .@apple .@women @women @girls @wired @wireduk @intel @nsagov @gchq @darpa @amd @arm @samsung @huawei .@energy .@intel .@ornl we dothe bubble tree or butttreee functions with the static electronpairing thesewouldbe abit static but these in rings and aset of frequencybombs and each is a superposition until a photonic beam…

View On WordPress

each emmitted particle if fromcumulativebondingflux rips out a part ofthe co untercharge too @science .@science .@sciam @sciam @wired @wireduk @women @intel @nsagov @gchq @darpa @energy .@energy @ornl the new electron refinement sho uld stabilise #LNL6 #LNL7 superposition and anyother electronpairing endeavour

each emmitted particle if fromcumulativebondingflux rips out a part ofthe co untercharge too @science .@science .@sciam @sciam @wired @wireduk @women @intel @nsagov @gchq @darpa @energy .@energy @ornl the new electron refinement sho uld stabilise #LNL6 #LNL7 superposition and anyother electronpairing endeavour

each emmitted particle if fromcumulativebondingflux rips out a part ofthe countercharge too @science .@science .@sciam @sciam @wired @wireduk @women @intel @nsagov @gchq @darpa @energy .@energy @ornl

the new electron refinement should stabilise #LNL6 #LNL7 superposition and anyother electronpairing endeavour

but you! got the sciencelab and the multibillion cathedrals of science hadroncolliders

d o

View On WordPress

@japan @wired @wireduk @women @intel @nsagov @gchq @darpa @energy .@energy @ornl the new el ectron refinement should stabilise #LNL6 #LNL7 superposition and anyother electronpairing endea vour but you! got the sciencelab and the multibillion cathedrals of science hadroncollider s d o e s it stabilise the electronpairin g by which factor pleasepublish this factor

@japan @wired @wireduk @women @intel @nsagov @gchq @darpa @energy .@energy @ornl the new el ectron refinement should stabilise #LNL6 #LNL7 superposition and anyother electronpairing endea vour but you! got the sciencelab and the multibillion cathedrals of science hadroncollider s d o e s it stabilise the electronpairin g by which factor pleasepublish this factor

@japan .@japan @wired @wireduk @women @intel @nsagov @gchq @darpa @energy .@energy @ornl

the new electron refinement should stabilise #LNL6 #LNL7 superposition and anyother electronpairing endeavour

but you! got the sciencelab and the multibillion cathedrals of science hadroncolliders

d o e s it stabilise the electronpairing by which factor

pleasepublish this factor ifyouwant

greetings

a solid…

View On WordPress

that is just a stable superposition of electronpairing. with reinventing physics. 1onlyofmany declinated externalities @all @world (be kind to your #scientists, people matter. itisthe core of that race nooneshalttttknow yers) @science

that is just a stable superposition of electronpairing. with reinventing physics. 1onlyofmany declinated externalities @all @world (be kind to your #scientists, people matter. itisthe core of that race nooneshalttttknow yers) @science

that is just a stable superposition of electronpairing. with reinventing physics. 1onlyofmany declinated externalities @all @world (be kind to your #scientists, people matter. itisthe core of that race nooneshalttttknow yers) @science .@science @sciam .@sciam @nature @naturephysics @harvard them. had the hadron colliders. for decades

anything else is said with this

allthebest and greetings

I am…

View On WordPress

@science .@science  @nature @naturephysics .@nature @harvar dphysics .@sciam @sciam @energy .@energy a bigger chargefield1 part and a smaller chargefield2 withinthe same electron mea ns simply that the ******** charge imbalanced spiked out whi ch the electron is, rippedout more charge1 type and less c harge2 type and forms the electron ifproton isformed from en ergy equilibriumdisruptionforming proton or if neutrons for med the same is terue for the positron ********* @women @g irls .@women .@science @sciam .@sciam @natureelectron @harvardphysics   @nsagov @gchq @da rpa  @intel @amd @arm @wired @wireduk @energy @ornl @samsung @huawei @apple @tim_cook .@tim_cook .@applewhenimright we enhance the reliability and clarity a nd duration ofthe superposition tremendously when not: meh ...  letsdothis nobigdeal acoupleof tries and miracle if work sout especially comparedtothe countless flyfart duration and reliability superposotions in microwavwgates this little twea k isbased onmy hypothesis theory that the electrons fields are different size ie o-O s opaired to o-O O-o simple heh? //// #one #little #LN L6 #LNL7 #tweak @nsagov @gchq @darpa  @intel @amd @arm @wired  @wireduk @energy @ornl @samsung @huawei @apple @tim_cook .@tim _cook .@apple  lets dothis: we pair LNL6 LNL7 electrons co ntra directional  so youfeed the sourcedrain pairingdevicesfromopposite directions sotheydont pair simillaridrections but emmit fromoppposite directions ando ptimsie t h i s electronpairing whenimright e- stickbetter andlonger and less eenergypunch necessary smoother andbetter radiopart too boldboldguess idonthave a lab butyouhave hey #rainbowtimmy hows the #m1 #chip isit already an #LNL6 ? allthebest  I am Christian KIS S BabyAWACS – Raw Independent Sophistication #THINKTANK + #I NTEL #HELLHOLE #BLOG https://www.BabyAWACS.com/ Inquiry@BabyAW ACS.com PHONE / FAX +493212 611 34 64 Helpful? Pay. Support. D onnate. paypal.me/ChristianKiss

@science .@science  @nature @naturephysics .@nature @harvar dphysics .@sciam @sciam @energy .@energy a bigger chargefield1 part and a smaller chargefield2 withinthe same electron mea ns simply that the ******** charge imbalanced spiked out whi ch the electron is, rippedout more charge1 type and less c harge2 type and forms the electron ifproton isformed from en ergy equilibriumdisruptionforming proton or if neutrons for med the same is terue for the positron ********* @women @g irls .@women .@science @sciam .@sciam @natureelectron @harvardphysics   @nsagov @gchq @da rpa  @intel @amd @arm @wired @wireduk @energy @ornl @samsung @huawei @apple @tim_cook .@tim_cook .@applewhenimright we enhance the reliability and clarity a nd duration ofthe superposition tremendously when not: meh …  letsdothis nobigdeal acoupleof tries and miracle if work sout especially comparedtothe countless flyfart duration and reliability superposotions in microwavwgates this little twea k isbased onmy hypothesis theory that the electrons fields are different size ie o-O s opaired to o-O O-o simple heh? //// #one #little #LN L6 #LNL7 #tweak @nsagov @gchq @darpa  @intel @amd @arm @wired  @wireduk @energy @ornl @samsung @huawei @apple @tim_cook .@tim _cook .@apple  lets dothis: we pair LNL6 LNL7 electrons co ntra directional  so youfeed the sourcedrain pairingdevicesfromopposite directions sotheydont pair simillaridrections but emmit fromoppposite directions ando ptimsie t h i s electronpairing whenimright e- stickbetter andlonger and less eenergypunch necessary smoother andbetter radiopart too boldboldguess idonthave a lab butyouhave hey #rainbowtimmy hows the #m1 #chip isit already an #LNL6 ? allthebest  I am Christian KIS S BabyAWACS – Raw Independent Sophistication #THINKTANK + #I NTEL #HELLHOLE #BLOG https://www.BabyAWACS.com/ Inquiry@BabyAW ACS.com PHONE / FAX +493212 611 34 64 Helpful? Pay. Support. D onnate. paypal.me/ChristianKiss

@science .@science @nature @naturephysics .@nature @harvardphysics .@sciam @sciam @energy .@energy a bigger chargefield1 part and a smaller chargefield2 withinthe same electron means simply that the

********

charge imbalanced spiked out which the electron is,

rippedout more charge1 type and less charge2 type

and forms the electron

ifproton isformed from energy equilibriumdisruptionforming proton

View On WordPress

.@science @sciam .@sciam @natureelectron @harvardphysics   @nsag ov @gchq @darpa  @intel @amd @arm @wired @wir eduk @energy @ornl @samsung @huawei @apple @tim_cook .@tim_cook .@apple whenimright we enhance the reliability and clarity and duration ofthe superposition tremend ously when not: meh...  letsdothis nobigdeal acoupleof tries and miracle if worksout esp ecially comparedtothe countless flyfart duration and reliability superposotions in microwa vwgates this little tweak isbased onmy hypothesis theory that the electrons fields are diff erent size ie o-O sopaired to o-O O-o simple heh? //// #one #little #LNL6 #LNL7 #tweak @nsagov @gchq @darpa  @intel @amd @arm  @wired @wireduk @energy @ornl @samsung @huawei @apple @tim_cook .@tim_cook .@apple  lets dothis: we pair LNL6 LNL7 electrons contra di rectional  so youfeed the sourcedrain pairingdevicesfromopposite directions sotheydontpair simillaridrections but emmit fromoppposite directions andoptimsie t h i s electronpairing whenimright e- stickbetter andlonger and less eenergypunch necessary smoother andbetter radi opart too boldboldguess idonthave a lab butyouhave hey #rainbowtimmy hows the #m1 #ch ip isit already an #LNL6 ? allthebest  I am Christian KISS BabyAWACS – Raw Independent Sop histication #THINKTANK + #INTEL #HELLHOLE #BLOG https://www.BabyAWACS.com/ Inquiry@BabyAWAC S.com PHONE / FAX +493212 611 34 64 Helpful? Pay. Support. Donnate. paypal.me/ChristianKiss

.@science @sciam .@sciam @natureelectron @harvardphysics   @nsag ov @gchq @darpa  @intel @amd @arm @wired @wir eduk @energy @ornl @samsung @huawei @apple @tim_cook .@tim_cook .@apple whenimright we enhance the reliability and clarity and duration ofthe superposition tremend ously when not: meh…  letsdothis nobigdeal acoupleof tries and miracle if worksout esp ecially comparedtothe countless flyfart duration and reliability superposotions in microwa vwgates this little tweak isbased onmy hypothesis theory that the electrons fields are diff erent size ie o-O sopaired to o-O O-o simple heh? //// #one #little #LNL6 #LNL7 #tweak @nsagov @gchq @darpa  @intel @amd @arm  @wired @wireduk @energy @ornl @samsung @huawei @apple @tim_cook .@tim_cook .@apple  lets dothis: we pair LNL6 LNL7 electrons contra di rectional  so youfeed the sourcedrain pairingdevicesfromopposite directions sotheydontpair simillaridrections but emmit fromoppposite directions andoptimsie t h i s electronpairing whenimright e- stickbetter andlonger and less eenergypunch necessary smoother andbetter radi opart too boldboldguess idonthave a lab butyouhave hey #rainbowtimmy hows the #m1 #ch ip isit already an #LNL6 ? allthebest  I am Christian KISS BabyAWACS – Raw Independent Sop histication #THINKTANK + #INTEL #HELLHOLE #BLOG https://www.BabyAWACS.com/ Inquiry@BabyAWAC S.com PHONE / FAX +493212 611 34 64 Helpful? Pay. Support. Donnate. paypal.me/ChristianKiss

.@science @sciam .@sciam @natureelectron @harvardphysics

@nsagov @gchq @darpa @intel @amd @arm @wired @wireduk @energy @ornl @samsung @huawei @apple @tim_cook .@tim_cook .@applewhenimright we enhance the reliability and clarity and duration ofthe superposition tremendously

when not: meh…

letsdothis nobigdeal acoupleof tries

and miracle if worksout

especially comparedtothe countless flyfart…

View On WordPress

#one #little #LNL6 #LNL7 #tweak @nsagov @gchq @darpa  @intel @amd @arm @wired  @wireduk @energy @ornl @samsung @huawei @apple @tim_ cook .@tim_cook .@apple  lets dothis: we pair LNL6 LNL7 electrons contra direct ional  so youfeed the sourcedrain pairingdevicesfromopposite directions sotheydontpair simillaridrections but emmit fromoppposite directions andoptimsie t h i s electronpairing whenimright e- stickbetter andlon ger and less eenergypunch necessary smoother andbetter radiopart too boldboldguess idonthave a lab butyo uhave hey #rainbowtimmy hows the #m1 #chip isit already an #LNL6 ? allthebe st  I am Christian KISS BabyAWACS – Raw Independent Sophistication #THINKTANK + #INTEL #HELLHOLE #BLOG https://www.BabyAWACS.com/ [email protected] PHONE / FAX +493212 611 34 64 H elpful? Pay. Support. Donnate. paypal.me/ChristianKiss

#one #little #LNL6 #LNL7 #tweak @nsagov @gchq @darpa @intel @amd @arm @wired @wireduk @energy @ornl @samsung @huawei @apple @tim_cook .@tim_cook .@apple

lets dothis: we pair LNL6 LNL7 electrons

contra directional

so youfeed the sourcedrain pairingdevicesfromopposite directions sotheydontpair simillaridrections but emmit fromoppposite directions

andoptimsie t h i s electronpairing

whenimright e-…

View On WordPress

lets trythis in #LNL6 wheneach electronpair superposition in logtree is mathematically descriptive  log(x^2+y^2) or log(x^3+y^3)  @darpa @nsagov @gchq .@mathematic .@mathematics @wired @wireduk @mathematics @mat h @harvardmath #LNL6 and thisis the basis of all functions instead binary making addition multiplication values deduction values exponetnialvalues‎ ‎ what speed do we gain or decrease ‎ //// @lockheedmartin .@lockheedmartin f35a f35b f35c gets it for one patriotic dollar. not pervert dollar. istandby that. lets packit into block4 ifits feasible quickly. energy maywant i t nsagov gchwq maywantit and they allget f35abc jets  ////

lets trythis in #LNL6 wheneach electronpair superposition in logtree is mathematically descriptive  log(x^2+y^2) or log(x^3+y^3)  @darpa @nsagov @gchq .@mathematic .@mathematics @wired @wireduk @mathematics @mat h @harvardmath #LNL6 and thisis the basis of all functions instead binary making addition multiplication values deduction values exponetnialvalues‎ ‎ what speed do we gain or decrease ‎ //// @lockheedmartin .@lockheedmartin f35a f35b f35c gets it for one patriotic dollar. not pervert dollar. istandby that. lets packit into block4 ifits feasible quickly. energy maywant i t nsagov gchwq maywantit and they allget f35abc jets ////

lets trythis in #LNL6 wheneach electronpair superposition in logtree is mathematically descriptive log(x^2+y^2) or log(x^3+y^3) @darpa @nsagov @gchq .@mathematic .@mathematics @wired @wireduk @mathematics @math @harvardmath #LNL6

and thisis the basis of all functions instead binary

making addition multiplication values deduction values exponetnialvalues

what speed do we gain or decrease

////

@loc…

View On WordPress

@lockheedmartin .@lockheedmartin f35a f35b f35c gets it for one patriotic dollar. not pervert dollar. istandby that. le ts packit into block4 ifits feasible quickly. energy maywant it nsagov gchwq maywantit and they allget f35abc jets 

@lockheedmartin .@lockheedmartin f35a f35b f35c gets it for one patriotic dollar. not pervert dollar. istandby that. lets packit into block4 ifits feasible quickly. energy maywant it nsagov gchwq maywantit and they allget f35abc jets

wheneach electronpair superposition in logtree is mathematically descriptive log(x^2+y^2) or log(x^3+y^3) @darpa @nsagov @gchq .@mathematic .@mathematics @wired…

View On WordPress

wheneach electronpair superposition in logtree is mathematically descriptive  log(x^2+y^2) or log(x^3+y^3)  @darpa @nsagov @gchq .@mathematic .@mathematics @wired @wireduk @mathematics @math @harvardmath #L NL6 and thisis the basis of all functions instead binary making addition multiplication values deduction values exponetnialvalues what speed do we gain or decrease ‎ ////

wheneach electronpair superposition in logtree is mathematically descriptive  log(x^2+y^2) or log(x^3+y^3)  @darpa @nsagov @gchq .@mathematic .@mathematics @wired @wireduk @mathematics @math @harvardmath #L NL6 and thisis the basis of all functions instead binary making addition multiplication values deduction values exponetnialvalues what speed do we gain or decrease ‎ ////

wheneach electronpair superposition in logtree is mathematically descriptive log(x^2+y^2) or log(x^3+y^3) @darpa @nsagov @gchq .@mathematic .@mathematics @wired @wireduk @mathematics @math @harvardmath #LNL6

and thisis the basis of all functions instead binary

making addition multiplication values deduction values exponetnialvalues

what speed do we gain or decrease

////

when youthink of it the…

View On WordPress

#btw #LNL6 #photonic #qubit #makers  @mathematics @mathematic @math .@mathematics   @losa lamosnatlab @ornl #energy @energy .@energy .@ornl .@losalamosnatlab @iterwomen @wired @darpa .@darpa @wireduk @nsagov @gchq @intel .@intel @amd @arm @qualcomm @huawei I say we need a coffee-tree,teatree,boozetree by a B A S E Loop signal And this base loop signal photonic beam stream can vary And should vary by data transmitted When we adapt coffeetree math functions to it, and each function relative to a loop beam base beam And this base loop varies  We multiply data density. And possible operations *********‎ Lets ‎ make a base clock counter as photonic beam All deviates from this base beam becomes data already as coffe-tree,tea-tree,booze-tree, with its branches. Branches where they interconnect And  All onthis base loop: repeat the next n qubits, repeat the ne xt n clock cycles, or do nothing relay only. ********** Meta material reflector connector decides susceptible to one type of electronamount ,electronpairing‎ amount, which it is,  Itis photonic computing itis too fast to process. Usually. So the challenge is to do functions that presort it automatically in this instant  And writes it out automatically or terminates the error intrinsic ally and doesnt write out a value.  Writingout a value re-alters the next electronpairing and beam an d so on  Ie the standard qubit concept LNL6 The ring algorithm is important for this error correction

#btw #LNL6 #photonic #qubit #makers  @mathematics @mathematic @math .@mathematics   @losa lamosnatlab @ornl #energy @energy .@energy .@ornl .@losalamosnatlab @iterwomen @wired @darpa .@darpa @wireduk @nsagov @gchq @intel .@intel @amd @arm @qualcomm @huawei I say we need a coffee-tree,teatree,boozetree by a B A S E Loop signal And this base loop signal photonic beam stream can vary And should vary by data transmitted When we adapt coffeetree math functions to it, and each function relative to a loop beam base beam And this base loop varies  We multiply data density. And possible operations *********‎ Lets ‎ make a base clock counter as photonic beam All deviates from this base beam becomes data already as coffe-tree,tea-tree,booze-tree, with its branches. Branches where they interconnect And  All onthis base loop: repeat the next n qubits, repeat the ne xt n clock cycles, or do nothing relay only. ********** Meta material reflector connector decides susceptible to one type of electronamount ,electronpairing‎ amount, which it is,  Itis photonic computing itis too fast to process. Usually. So the challenge is to do functions that presort it automatically in this instant  And writes it out automatically or terminates the error intrinsic ally and doesnt write out a value.  Writingout a value re-alters the next electronpairing and beam an d so on  Ie the standard qubit concept LNL6 The ring algorithm is important for this error correction

#btw #LNL6 #photonic #qubit #makers @mathematics @mathematic @math .@mathematics @losalamosnatlab @ornl #energy @energy .@energy .@ornl .@losalamosnatlab @iterwomen @wired @darpa .@darpa @wireduk @nsagov @gchq @intel .@intel @amd @arm @qualcomm @huawei

I say we need a coffee-tree,teatree,boozetree by a B A S E Loop signal And this base loop signal photonic beam stream can vary And should vary by…

View On WordPress

canyou publish sth cool about #LNL6 #LNL7 im really curious,didthe octanion integration work .@mathematics  .@ja pan  .@energy .@intel @women .@women .@girls @girls .@wired @wireduk .@energy .@ornl @ite rwomen @energy .@intel .@apple .@ibm .@woz .@math .@mathematics .@darpa .@nsagov .@gchq @ japan @wired .@wired @wireduk @intel @amd @arm @darpa @huawei @samsung @apple @tsmc @ornl .@energy ‎ the angled sourcedrain devices musthave - bold guess- reduced clu tter and added new densities inthe lattice the partially covered clockatoms got a free directional pick now soyougot likely severe patterns incontrary to before hard to defi ne wash datadensity yougot LNL3 channels and... struggle with the thermodynamic cumulation of energy in it? dontforget to add coolant lines or such ifit cumulates energy but that wont harm the other spectrums  the  octanion with initquarternion integration is likely terror foryou like math in ancient greek and naked. ask... furey.. theother tweaks iwrote iforgot overnight toomany suffocaitons and braincookings hehe  ah right the sped up electronpairing incotnrary to punchh!!!!!pow erful whichis good for rf likely but lesshelpful for fast photonic computing. did spedup electron optimisation yield results too ? ibet it did. theguess was from strong ttttttttack!!!!!s to‎ frrrrrrrrrrrrrrrrts.  thereweremore tweaks the butt tree and bubble tree as other tree optimisations didthey yield results theylikely did simple parametric longscale the simplest form alte ring photons along a way and thelonger the way the larger the value processable simlutaneously maybe on bad relays  so large frige sizes printing makes wheeeeey results soon? therewasmore ineed infos to enhance it its no info boldguess y o u know better quarreled with defiining dense data wash? allabit better now with clockatom fix? ‎ ‎ ‎cleaner structures now?

canyou publish sth cool about #LNL6 #LNL7 im really curious,didthe octanion integration work .@mathematics  .@ja pan  .@energy .@intel @women .@women .@girls @girls .@wired @wireduk .@energy .@ornl @ite rwomen @energy .@intel .@apple .@ibm .@woz .@math .@mathematics .@darpa .@nsagov .@gchq @ japan @wired .@wired @wireduk @intel @amd @arm @darpa @huawei @samsung @apple @tsmc @ornl .@energy ‎ the angled sourcedrain devices musthave – bold guess- reduced clu tter and added new densities inthe lattice the partially covered clockatoms got a free directional pick now soyougot likely severe patterns incontrary to before hard to defi ne wash datadensity yougot LNL3 channels and… struggle with the thermodynamic cumulation of energy in it? dontforget to add coolant lines or such ifit cumulates energy but that wont harm the other spectrums  the  octanion with initquarternion integration is likely terror foryou like math in ancient greek and naked. ask… furey.. theother tweaks iwrote iforgot overnight toomany suffocaitons and braincookings hehe  ah right the sped up electronpairing incotnrary to punchh!!!!!pow erful whichis good for rf likely but lesshelpful for fast photonic computing. did spedup electron optimisation yield results too ? ibet it did. theguess was from strong ttttttttack!!!!!s to‎ frrrrrrrrrrrrrrrrts.  thereweremore tweaks the butt tree and bubble tree as other tree optimisations didthey yield results theylikely did simple parametric longscale the simplest form alte ring photons along a way and thelonger the way the larger the value processable simlutaneously maybe on bad relays  so large frige sizes printing makes wheeeeey results soon? therewasmore ineed infos to enhance it its no info boldguess y o u know better quarreled with defiining dense data wash? allabit better now with clockatom fix? ‎ ‎ ‎cleaner structures now?

canyou publish sth cool about #LNL6 #LNL7 im really curious,didthe octanion integration work .@mathematics .@japan .@energy .@intel @women .@women .@girls @girls .@wired @wireduk .@energy .@ornl @iterwomen @energy .@intel .@apple .@ibm .@woz .@math .@mathematics .@darpa .@nsagov .@gchq @japan @wired .@wired @wireduk @intel @amd @arm @darpa @huawei @samsung @apple @tsmc @ornl .@energy

the angled…

View On WordPress

#litography .@energy .@ornl @energy #LNL6 #LNL7‎ .@intel? .@apple? .@ibm? .@woz? .@math .@mathematics .@darpa .@nsagov .@gchq @wired .@wired @wireduk @intel @amd @arm @darpa @hu awei @samsung @apple @tsmc @ornl .@energy #LNL6 makers #LNL7 makers @mathematics  isthere a better way to make #LNL3 channels modified with clock atoms than (((((((((reflector layer ++++++clockatoms‎ ((((   )))) ++++++ laser hard angled astinypossible tothe sides or  sourcedrain powerpunch litography it in or electronpairing as pattern freefloat while extreme uv angled i n youhave a better way?

#litography .@energy .@ornl @energy #LNL6 #LNL7‎ .@intel? .@apple? .@ibm? .@woz? .@math .@mathematics .@darpa .@nsagov .@gchq @wired .@wired @wireduk @intel @amd @arm @darpa @hu awei @samsung @apple @tsmc @ornl .@energy #LNL6 makers #LNL7 makers @mathematics  isthere a better way to make #LNL3 channels modified with clock atoms than (((((((((reflector layer ++++++clockatoms‎ ((((   )))) ++++++ laser hard angled astinypossible tothe sides or  sourcedrain powerpunch litography it in or electronpairing as pattern freefloat while extreme uv angled i n youhave a better way?

#litography .@energy .@ornl @energy #LNL6 #LNL7‎ .@intel? .@apple? .@ibm? .@woz? .@math .@mathematics .@darpa .@nsagov .@gchq @wired .@wired @wireduk @intel @amd @arm @darpa @huawei @samsung @apple @tsmc @ornl .@energy #LNL6 makers #LNL7 makers @mathematics

isthere a better way to make #LNL3 channels modified with clockatoms than

(((((((((reflector layer ++++++clockatoms

(((( )))) ++++++ laser…

View On WordPress