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equation_gpt_train_100_chemistry.jsonl
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{"completion": " The equation for Relationship of Conjugate Acid\u2013Base Pair is <equation>K_a K_b = K_w</equation>. The meaning of symbol <equation>K_b</equation> in Relationship of Conjugate Acid\u2013Base Pair is: Equilibrium constants for conjugate base of the acid.", "tag": "Chemical,Chemistry", "prompt": "What is the meaning of <equation>K_b</equation> in Relationship of Conjugate Acid\u2013Base Pair?"}
{"completion": " The equation for Cell Voltage is <equation>E_{cell} = E^\\\\circ _{cell} - \\\\frac{{RT}}{{n\\\\Im }}\\\\ln Q = E^\\\\circ _{cell} - \\\\frac{{0.0592}}{n}\\\\log Q</equation>. The meaning of symbol <equation>\\lambda</equation> in Cell Voltage is: Wavelength.", "tag": "Chemistry,Electrochemistry", "prompt": "What does the symbol mean <equation>\\lambda</equation> in Cell Voltage?"}
{"completion": " The Latex Code for equation pH and pOH Relationshipis <equation>14 = pH + pOH</equation>", "tag": "Chemical,Chemistry", "prompt": "Please give me some hints on equation pH and pOH Relationship?"}
{"completion": " The Latex Code for equation pOH and Base Ionization Constant Equilibriumis <equation>pOH = pK_b + \\\\log \\\\frac{{\\\\left[ {HB^ + } \\\\right]}}{{\\\\left[ B \\\\right]}}</equation>", "tag": "Chemical,Chemistry", "prompt": "What is the latex code of equation pOH and Base Ionization Constant Equilibrium?"}
{"completion": " The Latex Code for equation pOH and Base Ionization Constant Equilibriumis <equation>pOH = pK_b + \\\\log \\\\frac{{\\\\left[ {HB^ + } \\\\right]}}{{\\\\left[ B \\\\right]}}</equation>", "tag": "Chemical,Chemistry", "prompt": "What is the equation of pOH and Base Ionization Constant Equilibrium?"}
{"completion": " The equation for Bohr Radius is <equation>a_0 = \\\\frac{{\\\\hbar ^2 }}{{m_e ke^2 }}</equation>. The meaning of symbol <equation>a_0</equation> in Bohr Radius is: Bohr Radius, the electron is moving with velocity v around the nucleus in an orbit of radius.", "tag": "Chemistry,Atomic Structure", "prompt": "What is the meaning of the symbol <equation>a_0</equation> in Bohr Radius?"}
{"completion": " The Latex Code for equation Reaction Quotientis <equation>\\\\begin{array}{*{20}c} {Q = \\\\frac{{\\\\left[ C \\\\right]^c \\\\left[ D \\\\right]^d }}{{\\\\left[ A \\\\right]^a \\\\left[ B \\\\right]^b }}} \\\\\\\\ {\\\\begin{array}{*{20}c} {aA + bB \\\\rightleftharpoons cC + dD} \\\\\\\\ \\\\end{array}} \\\\\\\\ \\\\end{array}</equation>", "tag": "Chemistry,Electrochemistry", "prompt": "Please give me some hints on equation Reaction Quotient?"}
{"completion": " The equation for Electric Current is <equation>I = \\\\frac{q}{t}</equation>. The meaning of symbol <equation>\\lambda</equation> in Electric Current is: Wavelength.", "tag": "Chemistry,Electrochemistry", "prompt": "What is the meaning of the symbol <equation>\\lambda</equation> in Electric Current?"}
{"completion": " The Latex Code for equation Gibb Free Energy Changeis <equation>\\\\Delta G^\\\\circ = \\\\sum {G^\\\\circ _f {\\\\rm{products}}} - \\\\sum {G^\\\\circ _f {\\\\rm{reactants}}} \\\\\\\\\\ \\\\Delta G^\\\\circ = \\\\Delta H^\\\\circ - T\\\\Delta S^\\\\circ \\\\\\\\\\ \\\\Delta G^\\\\circ = - n\\\\Im E^\\\\circ</equation>", "tag": "Chemistry,Thermochemistry", "prompt": "Can you write equation Gibb Free Energy Change?"}
{"completion": " The equation for pKb Definition is: <equation>pK_b = - \\\\log K_b</equation>. Here is the brief introduction of pKb Definition:\n Latex code for pKb Definition.\n \n: pH, quantitative measure of the acidity or basicity of aqueous or other liquid solutions.\n\n\nRelated Documents\n\npH chemistry\n\nRelated Videos\n\n\n", "tag": "Chemical,Chemistry", "prompt": "Can you explain pKb Definition?"}
{"completion": " The equation for Electric Current is <equation>I = \\\\frac{q}{t}</equation>. The meaning of symbol <equation>I</equation> in Electric Current is: Electric Current.", "tag": "Chemistry,Electrochemistry", "prompt": "Can you explain the symbol <equation>I</equation> in Electric Current?"}
{"completion": " The equation for Speed of Light is <equation>c = \\\\lambda \\\\nu</equation>. The meaning of symbol <equation>c</equation> in Speed of Light is: Speed of Light.", "tag": "Chemistry,Atomic Structure", "prompt": "Can you explain the symbol <equation>c</equation> in Speed of Light?"}
{"completion": " The related materials of Equilibrium Constant and Cell Voltage is: 1.The Reaction Quotient:<url>https://chem.libretexts.org/Bookshelves/Physical_and_Theoretical_Chemistry_Textbook_Maps/Supplemental_Modules_(Physical_and_Theoretical_Chemistry)/Equilibria/Chemical_Equilibria/The_Reaction_Quotient</url>;", "tag": "Chemistry,Electrochemistry", "prompt": "Can you help me find related materials of Equilibrium Constant and Cell Voltage?"}
{"completion": " The equation for Gibb Free Energy Change is <equation>\\\\Delta G^\\\\circ = \\\\sum {G^\\\\circ _f {\\\\rm{products}}} - \\\\sum {G^\\\\circ _f {\\\\rm{reactants}}} \\\\\\\\\\ \\\\Delta G^\\\\circ = \\\\Delta H^\\\\circ - T\\\\Delta S^\\\\circ \\\\\\\\\\ \\\\Delta G^\\\\circ = - n\\\\Im E^\\\\circ</equation>. The meaning of symbol <equation>\\Delta H^\\circ</equation> in Gibb Free Energy Change is: Enthalpy chage.", "tag": "Chemistry,Thermochemistry", "prompt": "Can you explain the symbol <equation>\\Delta H^\\circ</equation> in Gibb Free Energy Change?"}
{"completion": " The related materials of Bohr Radius is: 1.Bohr radius - definition and derivation:<url>https://www.tutorialspoint.com/bohr-radius-definition-and-derivation</url>;", "tag": "Chemistry,Atomic Structure", "prompt": "Can you help me find related materials of Bohr Radius?"}
{"completion": " The Latex Code for equation pH and pOH Relationshipis <equation>14 = pH + pOH</equation>", "tag": "Chemical,Chemistry", "prompt": "What is the equation of pH and pOH Relationship?"}
{"completion": " The equation for Gibb Free Energy Change is: <equation>\\\\Delta G^\\\\circ = \\\\sum {G^\\\\circ _f {\\\\rm{products}}} - \\\\sum {G^\\\\circ _f {\\\\rm{reactants}}} \\\\\\\\\\ \\\\Delta G^\\\\circ = \\\\Delta H^\\\\circ - T\\\\Delta S^\\\\circ \\\\\\\\\\ \\\\Delta G^\\\\circ = - n\\\\Im E^\\\\circ</equation>. Here is the brief introduction of Gibb Free Energy Change:\n Latex code for Gibb Free Energy Change. Gibb's Free Energy Change in Terms of Enthalpy, Absolute Temperature, and Entropy. Also, Gibb's Free Energy Change can be expressed in Terms of Gas Constant, Absolute Temperature, and Equilibrium Constant. Additionally, Gibb's Free Energy Change can be expressed in Terms of Number of Moles, Faraday, and Standard Reduction Potential.\n \n: Gibb Free Energy Change\n: Enthalpy chage\n: Absolute Temperature\n: Entropy Change\n: Gas Constant\n: Gas Constant\n: Equilibrium Constant\n: Number of Moles\n: Faraday\n: Standard Reduction Potential\n\n\nRelated Documents\n\nThe Reaction Quotient\n\nRelated Videos\n\n\n", "tag": "Chemistry,Thermochemistry", "prompt": "I am interested in Gibb Free Energy Change?"}
{"completion": " The related materials of Radii of stable orbits in Bohr model is: 1.Bohr model radii:<url>https://www.khanacademy.org/science/physics/quantum-physics/atoms-and-electrons/v/bohr-model-radii</url>;", "tag": "Chemistry,Atomic Structure", "prompt": "Can you help me find related materials of Radii of stable orbits in Bohr model?"}
{"completion": " The equation for Acid Ionization Constant is <equation>HA_{(aq)}+H_2O_{(l)} \\\\rightleftharpoons H_3O^+_{(aq)}+A^?_{(aq)} \\\\\\\\\\ K_a=\\\\dfrac{[H_3O^+][A^?]}{[HA]} \\\\\\\\\\ HA_{(aq)} \\\\rightleftharpoons H^+_{(aq)}+A^?_{(aq)} \\\\\\\\\\ K_aK_b = K_w</equation>. The meaning of symbol <equation>HA</equation> in Acid Ionization Constant is: The parent acid..", "tag": "Chemical,Chemistry", "prompt": "Help me find the meaning of symbol <equation>HA</equation> in Acid Ionization Constant?"}
{"completion": " The equation for Relationship of Conjugate Acid\u2013Base Pair is: <equation>K_a K_b = K_w</equation>. Here is the brief introduction of Relationship of Conjugate Acid\u2013Base Pair:\n Latex code for the relationship of a conjugate acid\u2013base pair\n \n: The parent acid.\n: The conjugate base of parent acid HA.\n: Equilibrium constants for acid\n: Equilibrium constants for conjugate base of the acid\n: Equilibrium constants for any conjugate acid\u2013base pair.\n\n\nRelated Documents\n\nAcid base ionization constants (Ka and Kb relationship)\n\nRelated Videos\n\n\n", "tag": "Chemical,Chemistry", "prompt": "I am interested in Relationship of Conjugate Acid\u2013Base Pair?"}
{"completion": " The equation for pOH Definition is: <equation>pOH = - \\\\log \\\\left[ {OH^ - } \\\\right]</equation>. Here is the brief introduction of pOH Definition:\n Latex code for pOH Definition. pOH is a measure of hydroxide ion (OH -) concentration. It is used to express the alkalinity of a solution. Aqueous solutions at 25 degrees Celcius with pOH less than 7 are alkaline, pOH greater than 7 are acidic and pOH equal to 7 are neutral.\n \n: pOH\n\n\nRelated Documents\n\npOH chemistry\n\nRelated Videos\n\n\n", "tag": "Chemical,Chemistry", "prompt": "I am interested in pOH Definition?"}
{"completion": " The equation for Equilibrium Constant and Cell Voltage is <equation>\\\\log K = \\\\frac{{nE^\\\\circ }}{{0.0592}}</equation>. The meaning of symbol <equation>E^\\circ</equation> in Equilibrium Constant and Cell Voltage is: Cell Voltage.", "tag": "Chemistry,Electrochemistry", "prompt": "What does the symbol mean <equation>E^\\circ</equation> in Equilibrium Constant and Cell Voltage?"}
{"completion": " The equation for Radii of stable orbits in Bohr model is <equation>r = n^2 \\\\frac{{\\\\hbar ^2 }}{{m_e kZe^2 }} = n^2 \\\\frac{{a_0 }}{Z}</equation>. The meaning of symbol <equation>m</equation> in Radii of stable orbits in Bohr model is: Electron of mass m.", "tag": "Chemistry,Atomic Structure", "prompt": "Help me find the meaning of symbol <equation>m</equation> in Radii of stable orbits in Bohr model?"}
{"completion": " The equation for Base Ionization Constant is <equation>K_b= \\\\dfrac{[BH^+][OH^?]}{[B]}</equation>. The meaning of symbol <equation>K_b</equation> in Base Ionization Constant is: Equilibrium constants for conjugate base of the acid.", "tag": "Chemical,Chemistry", "prompt": "Can you explain the symbol <equation>K_b</equation> in Base Ionization Constant?"}
{"completion": " The equation for Speed of Light is <equation>c = \\\\lambda \\\\nu</equation>. The meaning of symbol <equation>c</equation> in Speed of Light is: Speed of Light.", "tag": "Chemistry,Atomic Structure", "prompt": "What is the meaning of the symbol <equation>c</equation> in Speed of Light?"}
{"completion": " The equation for Radii of stable orbits in Bohr model is <equation>r = n^2 \\\\frac{{\\\\hbar ^2 }}{{m_e kZe^2 }} = n^2 \\\\frac{{a_0 }}{Z}</equation>. The meaning of symbol <equation>h</equation> in Radii of stable orbits in Bohr model is: the number of orbits. The Bohr radius is proportional to the square of the number of orbits as h^2..", "tag": "Chemistry,Atomic Structure", "prompt": "Help me find the meaning of symbol <equation>h</equation> in Radii of stable orbits in Bohr model?"}
{"completion": " The equation for Speed of Light is <equation>c = \\\\lambda \\\\nu</equation>. The meaning of symbol <equation>\\nu</equation> in Speed of Light is: Frequency.", "tag": "Chemistry,Atomic Structure", "prompt": "What does the symbol mean <equation>\\nu</equation> in Speed of Light?"}
{"completion": " The equation for Base Ionization Constant is <equation>K_b= \\\\dfrac{[BH^+][OH^?]}{[B]}</equation>. The meaning of symbol <equation>HA</equation> in Base Ionization Constant is: The parent acid..", "tag": "Chemical,Chemistry", "prompt": "Help me find the meaning of symbol <equation>HA</equation> in Base Ionization Constant?"}
{"completion": " The Latex Code for equation Gas Pressure and Concentration Relationshipis <equation>K_p = K_c \\\\left( {RT} \\\\right)^{\\\\Delta n}</equation>", "tag": "Chemical,Chemistry", "prompt": "Can you write equation Gas Pressure and Concentration Relationship?"}
{"completion": " The equation for pKb Definition is: <equation>pK_b = - \\\\log K_b</equation>. Here is the brief introduction of pKb Definition:\n Latex code for pKb Definition.\n \n: pH, quantitative measure of the acidity or basicity of aqueous or other liquid solutions.\n\n\nRelated Documents\n\npH chemistry\n\nRelated Videos\n\n\n", "tag": "Chemical,Chemistry", "prompt": "Can you give me a brief introduction to pKb Definition?"}
{"completion": " The equation for Base Ionization Constant is <equation>K_b= \\\\dfrac{[BH^+][OH^?]}{[B]}</equation>. The meaning of symbol <equation>K_a</equation> in Base Ionization Constant is: Equilibrium constants for acid.", "tag": "Chemical,Chemistry", "prompt": "Help me find the meaning of symbol <equation>K_a</equation> in Base Ionization Constant?"}
{"completion": " The Latex Code for equation Linear Momentumis <equation>p = m\\\\upsilon</equation>", "tag": "Chemistry,Atomic Structure", "prompt": "Show me the latex code of equation Linear Momentum?"}
{"completion": " The related materials of Enthalpy Change is: 1.The Reaction Quotient:<url>https://chem.libretexts.org/Bookshelves/Physical_and_Theoretical_Chemistry_Textbook_Maps/Supplemental_Modules_(Physical_and_Theoretical_Chemistry)/Equilibria/Chemical_Equilibria/The_Reaction_Quotient</url>;", "tag": "Chemistry,Thermochemistry", "prompt": "Can you help me find related materials of Enthalpy Change?"}
{"completion": " The equation for Gibb Free Energy Change is <equation>\\\\Delta G^\\\\circ = \\\\sum {G^\\\\circ _f {\\\\rm{products}}} - \\\\sum {G^\\\\circ _f {\\\\rm{reactants}}} \\\\\\\\\\ \\\\Delta G^\\\\circ = \\\\Delta H^\\\\circ - T\\\\Delta S^\\\\circ \\\\\\\\\\ \\\\Delta G^\\\\circ = - n\\\\Im E^\\\\circ</equation>. The meaning of symbol <equation>\\Delta H^\\circ</equation> in Gibb Free Energy Change is: Enthalpy chage.", "tag": "Chemistry,Thermochemistry", "prompt": "What does the symbol mean <equation>\\Delta H^\\circ</equation> in Gibb Free Energy Change?"}
{"completion": " The equation for Buffer Design Equation is <equation>pH \\\\approx pK_a - \\\\log \\\\frac{{\\\\left[ {HA} \\\\right]_0 }}{{\\\\left[ {A^ - } \\\\right]_0 }}</equation>. The meaning of symbol <equation>HA</equation> in Buffer Design Equation is: The parent acid..", "tag": "Chemical,Chemistry", "prompt": "Help me find the meaning of symbol <equation>HA</equation> in Buffer Design Equation?"}
{"completion": " The equation for Gibb Free Energy Change is: <equation>\\\\Delta G^\\\\circ = \\\\sum {G^\\\\circ _f {\\\\rm{products}}} - \\\\sum {G^\\\\circ _f {\\\\rm{reactants}}} \\\\\\\\\\ \\\\Delta G^\\\\circ = \\\\Delta H^\\\\circ - T\\\\Delta S^\\\\circ \\\\\\\\\\ \\\\Delta G^\\\\circ = - n\\\\Im E^\\\\circ</equation>. Here is the brief introduction of Gibb Free Energy Change:\n Latex code for Gibb Free Energy Change. Gibb's Free Energy Change in Terms of Enthalpy, Absolute Temperature, and Entropy. Also, Gibb's Free Energy Change can be expressed in Terms of Gas Constant, Absolute Temperature, and Equilibrium Constant. Additionally, Gibb's Free Energy Change can be expressed in Terms of Number of Moles, Faraday, and Standard Reduction Potential.\n \n: Gibb Free Energy Change\n: Enthalpy chage\n: Absolute Temperature\n: Entropy Change\n: Gas Constant\n: Gas Constant\n: Equilibrium Constant\n: Number of Moles\n: Faraday\n: Standard Reduction Potential\n\n\nRelated Documents\n\nThe Reaction Quotient\n\nRelated Videos\n\n\n", "tag": "Chemistry,Thermochemistry", "prompt": "Can you give me a brief introduction to Gibb Free Energy Change?"}
{"completion": " The equation for Radii of stable orbits in Bohr model is <equation>r = n^2 \\\\frac{{\\\\hbar ^2 }}{{m_e kZe^2 }} = n^2 \\\\frac{{a_0 }}{Z}</equation>. The meaning of symbol <equation>r</equation> in Radii of stable orbits in Bohr model is: Radii of stable orbits r.", "tag": "Chemistry,Atomic Structure", "prompt": "Help me find the meaning of symbol <equation>r</equation> in Radii of stable orbits in Bohr model?"}
{"completion": " The Latex Code for equation Cell Voltageis <equation>E_{cell} = E^\\\\circ _{cell} - \\\\frac{{RT}}{{n\\\\Im }}\\\\ln Q = E^\\\\circ _{cell} - \\\\frac{{0.0592}}{n}\\\\log Q</equation>", "tag": "Chemistry,Electrochemistry", "prompt": "What is the latex code of equation Cell Voltage?"}
{"completion": " The equation for Ion Product Constant for Water is <equation>\\\\begin{array}{*{20}c} {K_w = \\\\left[ {OH^ - } \\\\right]\\\\left[ {H^ + } \\\\right] = K_a \\\\times K_b } \\\\\\\\ {\\\\begin{array}{*{20}c} { = 1.0 \\\\times 10^{ - 14} } & {at} & {25^\\\\circ C} \\\\\\\\ \\\\end{array}} \\\\\\\\ \\\\end{array}</equation>. The meaning of symbol <equation>K_w</equation> in Ion Product Constant for Water is: Equilibrium constants for any conjugate acid\u00e2\u20ac\u201cbase pair..", "tag": "Chemical,Chemistry", "prompt": "Can you explain the symbol <equation>K_w</equation> in Ion Product Constant for Water?"}
{"completion": " The equation for Radii of stable orbits in Bohr model is <equation>r = n^2 \\\\frac{{\\\\hbar ^2 }}{{m_e kZe^2 }} = n^2 \\\\frac{{a_0 }}{Z}</equation>. The meaning of symbol <equation>m</equation> in Radii of stable orbits in Bohr model is: Electron of mass m.", "tag": "Chemistry,Atomic Structure", "prompt": "What is the meaning of <equation>m</equation> in Radii of stable orbits in Bohr model?"}
{"completion": " The equation for De Broglie Wavelength is <equation>\\\\lambda = \\\\frac{h}{{m\\\\upsilon }}</equation>. The meaning of symbol <equation>h</equation> in De Broglie Wavelength is: The number of orbits h.", "tag": "Chemistry,Atomic Structure", "prompt": "Help me find the meaning of symbol <equation>h</equation> in De Broglie Wavelength?"}
{"completion": " The Latex Code for equation Buffer Design Equationis <equation>pH \\\\approx pK_a - \\\\log \\\\frac{{\\\\left[ {HA} \\\\right]_0 }}{{\\\\left[ {A^ - } \\\\right]_0 }}</equation>", "tag": "Chemical,Chemistry", "prompt": "What is the equation of Buffer Design Equation?"}
{"completion": " The equation for Gibb Free Energy Change is <equation>\\\\Delta G^\\\\circ = \\\\sum {G^\\\\circ _f {\\\\rm{products}}} - \\\\sum {G^\\\\circ _f {\\\\rm{reactants}}} \\\\\\\\\\ \\\\Delta G^\\\\circ = \\\\Delta H^\\\\circ - T\\\\Delta S^\\\\circ \\\\\\\\\\ \\\\Delta G^\\\\circ = - n\\\\Im E^\\\\circ</equation>. The meaning of symbol <equation>n</equation> in Gibb Free Energy Change is: Number of Moles.", "tag": "Chemistry,Thermochemistry", "prompt": "What is the meaning of <equation>n</equation> in Gibb Free Energy Change?"}
{"completion": " The equation for Cell Voltage is: <equation>E_{cell} = E^\\\\circ _{cell} - \\\\frac{{RT}}{{n\\\\Im }}\\\\ln Q = E^\\\\circ _{cell} - \\\\frac{{0.0592}}{n}\\\\log Q</equation>. Here is the brief introduction of Cell Voltage:\n Latex code for Cell Voltage.\n \n: Energy of Cell\n: Wavelength\n: Frequency\n\n\nRelated Documents\n\nThe Reaction Quotient\n\nRelated Videos\n\n\n", "tag": "Chemistry,Electrochemistry", "prompt": "Can you explain Cell Voltage?"}
{"completion": " The equation for Gibb Free Energy Change is <equation>\\\\Delta G^\\\\circ = \\\\sum {G^\\\\circ _f {\\\\rm{products}}} - \\\\sum {G^\\\\circ _f {\\\\rm{reactants}}} \\\\\\\\\\ \\\\Delta G^\\\\circ = \\\\Delta H^\\\\circ - T\\\\Delta S^\\\\circ \\\\\\\\\\ \\\\Delta G^\\\\circ = - n\\\\Im E^\\\\circ</equation>. The meaning of symbol <equation>\\Delta S^\\circ</equation> in Gibb Free Energy Change is: Entropy Change.", "tag": "Chemistry,Thermochemistry", "prompt": "Can you explain the symbol <equation>\\Delta S^\\circ</equation> in Gibb Free Energy Change?"}
{"completion": " The equation for pKa Definition is: <equation>pK_a = - \\\\log K_a</equation>. Here is the brief introduction of pKa Definition:\n Latex code for pKa Definition.\n \n: pH, quantitative measure of the acidity or basicity of aqueous or other liquid solutions.\n\n\nRelated Documents\n\npH chemistry\n\nRelated Videos\n\n\n", "tag": "Chemical,Chemistry", "prompt": "Can you explain pKa Definition?"}
{"completion": " The equation for Linear Momentum is: <equation>p = m\\\\upsilon</equation>. Here is the brief introduction of Linear Momentum:\n Latex code for Linear Momentum.\n \n: Linear Momentum\n: Velocity v\n: Mass m\n\n\nRelated Documents\n\nBohr radius - definition and derivation\n\nRelated Videos\n\n\n", "tag": "Chemistry,Atomic Structure", "prompt": "I am interested in Linear Momentum?"}
{"completion": " The equation for Equilibrium Constant and Cell Voltage is <equation>\\\\log K = \\\\frac{{nE^\\\\circ }}{{0.0592}}</equation>. The meaning of symbol <equation>K</equation> in Equilibrium Constant and Cell Voltage is: Equilibrium Constant.", "tag": "Chemistry,Electrochemistry", "prompt": "Help me find the meaning of symbol <equation>K</equation> in Equilibrium Constant and Cell Voltage?"}
{"completion": " The equation for Negative Logarithms Relationship Acid\u2013base Pair is <equation>pKa = ?\\\\log_{10}K_a \\\\\\\\\\ K_a=10^{?pK_a} \\\\\\\\\\ pK_b = ?\\\\log_{10}K_b \\\\\\\\\\ K_b=10^{?pK_b} \\\\\\\\\\ pK_a + pK_b = pK_w</equation>. The meaning of symbol <equation>HA</equation> in Negative Logarithms Relationship Acid\u2013base Pair is: The parent acid..", "tag": "Chemical,Chemistry", "prompt": "What is the meaning of <equation>HA</equation> in Negative Logarithms Relationship Acid\u2013base Pair?"}
{"completion": " The Latex Code for equation Linear Momentumis <equation>p = m\\\\upsilon</equation>", "tag": "Chemistry,Atomic Structure", "prompt": "What is the latex code of equation Linear Momentum?"}
{"completion": " The equation for Base Ionization Constant is <equation>K_b= \\\\dfrac{[BH^+][OH^?]}{[B]}</equation>. The meaning of symbol <equation>{A^ - }</equation> in Base Ionization Constant is: The conjugate base of parent acid HA..", "tag": "Chemical,Chemistry", "prompt": "Help me find the meaning of symbol <equation>{A^ - }</equation> in Base Ionization Constant?"}
{"completion": " The Latex Code for equation Enthalpy Changeis <equation>\\\\Delta H^\\\\circ = \\\\sum {H^\\\\circ _f {\\\\rm{products}}} - \\\\sum {H^\\\\circ _f {\\\\rm{reactants}}}</equation>", "tag": "Chemistry,Thermochemistry", "prompt": "Can you write equation Enthalpy Change?"}
{"completion": " The equation for Electric Current is <equation>I = \\\\frac{q}{t}</equation>. The meaning of symbol <equation>I</equation> in Electric Current is: Electric Current.", "tag": "Chemistry,Electrochemistry", "prompt": "What does the symbol mean <equation>I</equation> in Electric Current?"}
{"completion": " The equation for Buffer Design Equation is <equation>pH \\\\approx pK_a - \\\\log \\\\frac{{\\\\left[ {HA} \\\\right]_0 }}{{\\\\left[ {A^ - } \\\\right]_0 }}</equation>. The meaning of symbol <equation>{A^ - }</equation> in Buffer Design Equation is: The conjugate base of parent acid HA..", "tag": "Chemical,Chemistry", "prompt": "What is the meaning of the symbol <equation>{A^ - }</equation> in Buffer Design Equation?"}
{"completion": " The equation for Ion Product Constant for Water is: <equation>\\\\begin{array}{*{20}c} {K_w = \\\\left[ {OH^ - } \\\\right]\\\\left[ {H^ + } \\\\right] = K_a \\\\times K_b } \\\\\\\\ {\\\\begin{array}{*{20}c} { = 1.0 \\\\times 10^{ - 14} } & {at} & {25^\\\\circ C} \\\\\\\\ \\\\end{array}} \\\\\\\\ \\\\end{array}</equation>. Here is the brief introduction of Ion Product Constant for Water:\n Latex code for Ion Product Constant for Water.\n \n: Equilibrium constants for any conjugate acid\u00e2\u20ac\u201cbase pair.\n\n\nRelated Documents\n\nAcid base ionization constants (Ka and Kb relationship)\n\nRelated Videos\n\n\n", "tag": "Chemical,Chemistry", "prompt": "What's the meaning of Ion Product Constant for Water?"}
{"completion": " The equation for Equilibrium Constant and Cell Voltage is: <equation>\\\\log K = \\\\frac{{nE^\\\\circ }}{{0.0592}}</equation>. Here is the brief introduction of Equilibrium Constant and Cell Voltage:\n Latex code for Equilibrium Constant and Cell Voltage.\n \n: Equilibrium Constant\n: Cell Voltage\n\n\nRelated Documents\n\nThe Reaction Quotient\n\nRelated Videos\n\n\n", "tag": "Chemistry,Electrochemistry", "prompt": "What's the meaning of Equilibrium Constant and Cell Voltage?"}
{"completion": " The Latex Code for equation Ion Product Constant for Wateris <equation>\\\\begin{array}{*{20}c} {K_w = \\\\left[ {OH^ - } \\\\right]\\\\left[ {H^ + } \\\\right] = K_a \\\\times K_b } \\\\\\\\ {\\\\begin{array}{*{20}c} { = 1.0 \\\\times 10^{ - 14} } & {at} & {25^\\\\circ C} \\\\\\\\ \\\\end{array}} \\\\\\\\ \\\\end{array}</equation>", "tag": "Chemical,Chemistry", "prompt": "Can you write equation Ion Product Constant for Water?"}
{"completion": " The equation for pH Definition is <equation>pH = - \\\\log \\\\left[ {H^ + } \\\\right]</equation>. The meaning of symbol <equation>pH</equation> in pH Definition is: pH, quantitative measure of the acidity or basicity of aqueous or other liquid solutions..", "tag": "Chemical,Chemistry", "prompt": "Can you explain the symbol <equation>pH</equation> in pH Definition?"}
{"completion": " The equation for Energy and Principal Quantum Number is <equation>E_n = - R_H \\\\left( {\\\\frac{1}{{n^2 }}} \\\\right) = \\\\frac{{ - 2.178 \\\\times 10^{ - 18} }}{{n^2 }}</equation>. The meaning of symbol <equation>E_n</equation> in Energy and Principal Quantum Number is: Energy E_n.", "tag": "Chemistry,Atomic Structure", "prompt": "Can you explain the symbol <equation>E_n</equation> in Energy and Principal Quantum Number?"}
{"completion": " The equation for Specific Heat Capacity to Heat Equation is <equation>q = mc\\\\Delta T</equation>. The meaning of symbol <equation>T</equation> in Specific Heat Capacity to Heat Equation is: Absolute Temperature.", "tag": "Chemistry,Thermochemistry", "prompt": "What is the meaning of <equation>T</equation> in Specific Heat Capacity to Heat Equation?"}
{"completion": " The equation for Cell Voltage is <equation>E_{cell} = E^\\\\circ _{cell} - \\\\frac{{RT}}{{n\\\\Im }}\\\\ln Q = E^\\\\circ _{cell} - \\\\frac{{0.0592}}{n}\\\\log Q</equation>. The meaning of symbol <equation>E_{cell}</equation> in Cell Voltage is: Energy of Cell.", "tag": "Chemistry,Electrochemistry", "prompt": "Can you explain the symbol <equation>E_{cell}</equation> in Cell Voltage?"}
{"completion": " The Latex Code for equation Enthalpy Changeis <equation>\\\\Delta H^\\\\circ = \\\\sum {H^\\\\circ _f {\\\\rm{products}}} - \\\\sum {H^\\\\circ _f {\\\\rm{reactants}}}</equation>", "tag": "Chemistry,Thermochemistry", "prompt": "How to write equation Enthalpy Change?"}
{"completion": " The equation for Cell Voltage is <equation>E_{cell} = E^\\\\circ _{cell} - \\\\frac{{RT}}{{n\\\\Im }}\\\\ln Q = E^\\\\circ _{cell} - \\\\frac{{0.0592}}{n}\\\\log Q</equation>. The meaning of symbol <equation>\\lambda</equation> in Cell Voltage is: Wavelength.", "tag": "Chemistry,Electrochemistry", "prompt": "Can you explain the symbol <equation>\\lambda</equation> in Cell Voltage?"}
{"completion": " The Latex Code for equation pOH and Base Ionization Constant Equilibriumis <equation>pOH = pK_b + \\\\log \\\\frac{{\\\\left[ {HB^ + } \\\\right]}}{{\\\\left[ B \\\\right]}}</equation>", "tag": "Chemical,Chemistry", "prompt": "Show me the latex code of equation pOH and Base Ionization Constant Equilibrium?"}
{"completion": " The equation for Negative Logarithms Relationship Acid\u2013base Pair is <equation>pKa = ?\\\\log_{10}K_a \\\\\\\\\\ K_a=10^{?pK_a} \\\\\\\\\\ pK_b = ?\\\\log_{10}K_b \\\\\\\\\\ K_b=10^{?pK_b} \\\\\\\\\\ pK_a + pK_b = pK_w</equation>. The meaning of symbol <equation>K_a</equation> in Negative Logarithms Relationship Acid\u2013base Pair is: Equilibrium constants for acid.", "tag": "Chemical,Chemistry", "prompt": "What does the symbol mean <equation>K_a</equation> in Negative Logarithms Relationship Acid\u2013base Pair?"}
{"completion": " The equation for De Broglie Wavelength is <equation>\\\\lambda = \\\\frac{h}{{m\\\\upsilon }}</equation>. The meaning of symbol <equation>m</equation> in De Broglie Wavelength is: Electron of mass m.", "tag": "Chemistry,Atomic Structure", "prompt": "Help me find the meaning of symbol <equation>m</equation> in De Broglie Wavelength?"}
{"completion": " The Latex Code for equation pOH Definitionis <equation>pOH = - \\\\log \\\\left[ {OH^ - } \\\\right]</equation>", "tag": "Chemical,Chemistry", "prompt": "Can you write equation pOH Definition?"}
{"completion": " The equation for Negative Logarithms Relationship Acid\u2013base Pair is <equation>pKa = ?\\\\log_{10}K_a \\\\\\\\\\ K_a=10^{?pK_a} \\\\\\\\\\ pK_b = ?\\\\log_{10}K_b \\\\\\\\\\ K_b=10^{?pK_b} \\\\\\\\\\ pK_a + pK_b = pK_w</equation>. The meaning of symbol <equation>HA</equation> in Negative Logarithms Relationship Acid\u2013base Pair is: The parent acid..", "tag": "Chemical,Chemistry", "prompt": "Help me find the meaning of symbol <equation>HA</equation> in Negative Logarithms Relationship Acid\u2013base Pair?"}
{"completion": " The related materials of Energy and Principal Quantum Number is: 1.Bohr model radii:<url>https://www.khanacademy.org/science/physics/quantum-physics/atoms-and-electrons/v/bohr-model-radii</url>;", "tag": "Chemistry,Atomic Structure", "prompt": "Can you help me find related materials of Energy and Principal Quantum Number?"}
{"completion": " The equation for Linear Momentum is <equation>p = m\\\\upsilon</equation>. The meaning of symbol <equation>m</equation> in Linear Momentum is: Mass m.", "tag": "Chemistry,Atomic Structure", "prompt": "Help me find the meaning of symbol <equation>m</equation> in Linear Momentum?"}
{"completion": " The equation for Rydberg Equation is <equation>\\\\Delta E = R_H \\\\left( {\\\\frac{1}{{n_i ^2 }} - \\\\frac{1}{{n_f ^2 }}} \\\\right)</equation>. The meaning of symbol <equation>E_n</equation> in Rydberg Equation is: Energy E_n.", "tag": "Chemistry,Atomic Structure", "prompt": "What is the meaning of the symbol <equation>E_n</equation> in Rydberg Equation?"}
{"completion": " The equation for Reaction Quotient is <equation>\\\\begin{array}{*{20}c} {Q = \\\\frac{{\\\\left[ C \\\\right]^c \\\\left[ D \\\\right]^d }}{{\\\\left[ A \\\\right]^a \\\\left[ B \\\\right]^b }}} \\\\\\\\ {\\\\begin{array}{*{20}c} {aA + bB \\\\rightleftharpoons cC + dD} \\\\\\\\ \\\\end{array}} \\\\\\\\ \\\\end{array}</equation>. The meaning of symbol <equation>Q</equation> in Reaction Quotient is: Reaction Quotient.", "tag": "Chemistry,Electrochemistry", "prompt": "What is the meaning of <equation>Q</equation> in Reaction Quotient?"}
{"completion": " The Latex Code for equation Gibb Free Energy Changeis <equation>\\\\Delta G^\\\\circ = \\\\sum {G^\\\\circ _f {\\\\rm{products}}} - \\\\sum {G^\\\\circ _f {\\\\rm{reactants}}} \\\\\\\\\\ \\\\Delta G^\\\\circ = \\\\Delta H^\\\\circ - T\\\\Delta S^\\\\circ \\\\\\\\\\ \\\\Delta G^\\\\circ = - n\\\\Im E^\\\\circ</equation>", "tag": "Chemistry,Thermochemistry", "prompt": "What is the latex code of equation Gibb Free Energy Change?"}
{"completion": " The equation for Entropy Change is <equation>\\\\Delta S^\\\\circ = \\\\sum {S^\\\\circ {\\\\rm{products}}} - \\\\sum {S^\\\\circ {\\\\rm{reactants}}}</equation>. The meaning of symbol <equation>\\Delta S^\\circ</equation> in Entropy Change is: Entropy Change.", "tag": "Chemistry,Thermochemistry", "prompt": "What is the meaning of the symbol <equation>\\Delta S^\\circ</equation> in Entropy Change?"}
{"completion": " The Latex Code for equation Rydberg Equationis <equation>\\\\Delta E = R_H \\\\left( {\\\\frac{1}{{n_i ^2 }} - \\\\frac{1}{{n_f ^2 }}} \\\\right)</equation>", "tag": "Chemistry,Atomic Structure", "prompt": "What is the latex code of equation Rydberg Equation?"}
{"completion": " The equation for De Broglie Wavelength is <equation>\\\\lambda = \\\\frac{h}{{m\\\\upsilon }}</equation>. The meaning of symbol <equation>m</equation> in De Broglie Wavelength is: Electron of mass m.", "tag": "Chemistry,Atomic Structure", "prompt": "Can you explain the symbol <equation>m</equation> in De Broglie Wavelength?"}
{"completion": " The equation for Rydberg Equation is: <equation>\\\\Delta E = R_H \\\\left( {\\\\frac{1}{{n_i ^2 }} - \\\\frac{1}{{n_f ^2 }}} \\\\right)</equation>. Here is the brief introduction of Rydberg Equation:\n Latex code for Rydberg Equation. Rydberg suggested that all atomic spectra formed families with this pattern (he was unaware of Balmer's work). It turns out that there are families of spectra following Rydberg pattern, notably in the alkali metals, sodium, potassium, etc., but not with the precision the hydrogen atom lines fit the Balmer formula, and low values of n2 predicted wavelengths that deviate considerably. The results given by Balmer and Rydberg for the spectrum in the visible region of the electromagnetic radiation start with n2=3, and n1=2.\n \n: Energy E_n\n: RH is the Rydberg constant and is equal to 109,737 cm -1 (2.18 \u00c3\u2014 10 ? 18J)\n: n1 and n2 are integers (whole numbers) with n2>n1\n\n\nRelated Documents\n\nBohr model radii\nThe Rydberg Formula and the Hydrogen Atomic Spectrum\n\nRelated Videos\n\n\n", "tag": "Chemistry,Atomic Structure", "prompt": "Can you explain Rydberg Equation?"}
{"completion": " The related materials of Base Ionization Constant is: 1.Acid base ionization constants (Ka and Kb relationship):<url>https://chem.libretexts.org/Courses/Prince_Georges_Community_College/CHEM_1020%3A_General_Chemistry_II_(S.N._Yasapala)/03%3A_Acids_and_Bases/3.04%3A_Acid_base_ionization_constants_(Ka_and_Kb_relationship)</url>;", "tag": "Chemical,Chemistry", "prompt": "Can you help me find related materials of Base Ionization Constant?"}
{"completion": " The equation for Negative Logarithms Relationship Acid\u2013base Pair is <equation>pKa = ?\\\\log_{10}K_a \\\\\\\\\\ K_a=10^{?pK_a} \\\\\\\\\\ pK_b = ?\\\\log_{10}K_b \\\\\\\\\\ K_b=10^{?pK_b} \\\\\\\\\\ pK_a + pK_b = pK_w</equation>. The meaning of symbol <equation>K_b</equation> in Negative Logarithms Relationship Acid\u2013base Pair is: Equilibrium constants for conjugate base of the acid.", "tag": "Chemical,Chemistry", "prompt": "Can you explain the symbol <equation>K_b</equation> in Negative Logarithms Relationship Acid\u2013base Pair?"}
{"completion": " The equation for Relationship of Conjugate Acid\u2013Base Pair is <equation>K_a K_b = K_w</equation>. The meaning of symbol <equation>HA</equation> in Relationship of Conjugate Acid\u2013Base Pair is: The parent acid..", "tag": "Chemical,Chemistry", "prompt": "What is the meaning of <equation>HA</equation> in Relationship of Conjugate Acid\u2013Base Pair?"}
{"completion": " The Latex Code for equation pKb Definitionis <equation>pK_b = - \\\\log K_b</equation>", "tag": "Chemical,Chemistry", "prompt": "What is the latex code of equation pKb Definition?"}
{"completion": " The equation for pKa Definition is <equation>pK_a = - \\\\log K_a</equation>. The meaning of symbol <equation>pH</equation> in pKa Definition is: pH, quantitative measure of the acidity or basicity of aqueous or other liquid solutions..", "tag": "Chemical,Chemistry", "prompt": "Help me find the meaning of symbol <equation>pH</equation> in pKa Definition?"}
{"completion": " The equation for Linear Momentum is: <equation>p = m\\\\upsilon</equation>. Here is the brief introduction of Linear Momentum:\n Latex code for Linear Momentum.\n \n: Linear Momentum\n: Velocity v\n: Mass m\n\n\nRelated Documents\n\nBohr radius - definition and derivation\n\nRelated Videos\n\n\n", "tag": "Chemistry,Atomic Structure", "prompt": "Can you explain Linear Momentum?"}
{"completion": " The Latex Code for equation Gas Pressure and Concentration Relationshipis <equation>K_p = K_c \\\\left( {RT} \\\\right)^{\\\\Delta n}</equation>", "tag": "Chemical,Chemistry", "prompt": "Show me the latex code of equation Gas Pressure and Concentration Relationship?"}
{"completion": " The equation for Buffer Design Equation is <equation>pH \\\\approx pK_a - \\\\log \\\\frac{{\\\\left[ {HA} \\\\right]_0 }}{{\\\\left[ {A^ - } \\\\right]_0 }}</equation>. The meaning of symbol <equation>{A^ - }</equation> in Buffer Design Equation is: The conjugate base of parent acid HA..", "tag": "Chemical,Chemistry", "prompt": "What is the meaning of <equation>{A^ - }</equation> in Buffer Design Equation?"}
{"completion": " The equation for Ion Product Constant for Water is: <equation>\\\\begin{array}{*{20}c} {K_w = \\\\left[ {OH^ - } \\\\right]\\\\left[ {H^ + } \\\\right] = K_a \\\\times K_b } \\\\\\\\ {\\\\begin{array}{*{20}c} { = 1.0 \\\\times 10^{ - 14} } & {at} & {25^\\\\circ C} \\\\\\\\ \\\\end{array}} \\\\\\\\ \\\\end{array}</equation>. Here is the brief introduction of Ion Product Constant for Water:\n Latex code for Ion Product Constant for Water.\n \n: Equilibrium constants for any conjugate acid\u00e2\u20ac\u201cbase pair.\n\n\nRelated Documents\n\nAcid base ionization constants (Ka and Kb relationship)\n\nRelated Videos\n\n\n", "tag": "Chemical,Chemistry", "prompt": "Can you explain Ion Product Constant for Water?"}
{"completion": " The equation for Gas Pressure and Concentration Relationship is: <equation>K_p = K_c \\\\left( {RT} \\\\right)^{\\\\Delta n}</equation>. Here is the brief introduction of Gas Pressure and Concentration Relationship:\n Latex code for Gas Pressure and Concentration Relationship.\n \n\n\nRelated Documents\n\nAcid base ionization constants (Ka and Kb relationship)\n\nRelated Videos\n\n\n", "tag": "Chemical,Chemistry", "prompt": "Can you explain Gas Pressure and Concentration Relationship?"}
{"completion": " The equation for Speed of Light is: <equation>c = \\\\lambda \\\\nu</equation>. Here is the brief introduction of Speed of Light:\n Latex code for Speed of Light to Wavelength and Frequency Relationship.\n \n: Speed of Light\n: Wavelength\n: Frequency\n\n\nRelated Documents\n\nBohr model radii\nThe Rydberg Formula and the Hydrogen Atomic Spectrum\n\nRelated Videos\n\n\n", "tag": "Chemistry,Atomic Structure", "prompt": "I am interested in Speed of Light?"}
{"completion": " The equation for Buffer Design Equation is <equation>pH \\\\approx pK_a - \\\\log \\\\frac{{\\\\left[ {HA} \\\\right]_0 }}{{\\\\left[ {A^ - } \\\\right]_0 }}</equation>. The meaning of symbol <equation>K_a</equation> in Buffer Design Equation is: Equilibrium constants for acid.", "tag": "Chemical,Chemistry", "prompt": "What is the meaning of the symbol <equation>K_a</equation> in Buffer Design Equation?"}
{"completion": " The equation for Bohr Radius is <equation>a_0 = \\\\frac{{\\\\hbar ^2 }}{{m_e ke^2 }}</equation>. The meaning of symbol <equation>m</equation> in Bohr Radius is: Electron of mass m.", "tag": "Chemistry,Atomic Structure", "prompt": "Can you explain the symbol <equation>m</equation> in Bohr Radius?"}
{"completion": " The equation for Relationship of Conjugate Acid\u2013Base Pair is <equation>K_a K_b = K_w</equation>. The meaning of symbol <equation>K_a</equation> in Relationship of Conjugate Acid\u2013Base Pair is: Equilibrium constants for acid.", "tag": "Chemical,Chemistry", "prompt": "What is the meaning of <equation>K_a</equation> in Relationship of Conjugate Acid\u2013Base Pair?"}
{"completion": " The Latex Code for equation Enthalpy Changeis <equation>\\\\Delta H^\\\\circ = \\\\sum {H^\\\\circ _f {\\\\rm{products}}} - \\\\sum {H^\\\\circ _f {\\\\rm{reactants}}}</equation>", "tag": "Chemistry,Thermochemistry", "prompt": "Please give me some hints on equation Enthalpy Change?"}
{"completion": " The Latex Code for equation Relationship of Conjugate Acid\u2013Base Pairis <equation>K_a K_b = K_w</equation>", "tag": "Chemical,Chemistry", "prompt": "What is the latex code of equation Relationship of Conjugate Acid\u2013Base Pair?"}
{"completion": " The equation for Gibb Free Energy Change is <equation>\\\\Delta G^\\\\circ = \\\\sum {G^\\\\circ _f {\\\\rm{products}}} - \\\\sum {G^\\\\circ _f {\\\\rm{reactants}}} \\\\\\\\\\ \\\\Delta G^\\\\circ = \\\\Delta H^\\\\circ - T\\\\Delta S^\\\\circ \\\\\\\\\\ \\\\Delta G^\\\\circ = - n\\\\Im E^\\\\circ</equation>. The meaning of symbol <equation>E^\\circ</equation> in Gibb Free Energy Change is: Standard Reduction Potential.", "tag": "Chemistry,Thermochemistry", "prompt": "What does the symbol mean <equation>E^\\circ</equation> in Gibb Free Energy Change?"}
{"completion": " The equation for Radii of stable orbits in Bohr model is <equation>r = n^2 \\\\frac{{\\\\hbar ^2 }}{{m_e kZe^2 }} = n^2 \\\\frac{{a_0 }}{Z}</equation>. The meaning of symbol <equation>m</equation> in Radii of stable orbits in Bohr model is: Electron of mass m.", "tag": "Chemistry,Atomic Structure", "prompt": "Can you explain the symbol <equation>m</equation> in Radii of stable orbits in Bohr model?"}
{"completion": " The equation for Gibb Free Energy Change is <equation>\\\\Delta G^\\\\circ = \\\\sum {G^\\\\circ _f {\\\\rm{products}}} - \\\\sum {G^\\\\circ _f {\\\\rm{reactants}}} \\\\\\\\\\ \\\\Delta G^\\\\circ = \\\\Delta H^\\\\circ - T\\\\Delta S^\\\\circ \\\\\\\\\\ \\\\Delta G^\\\\circ = - n\\\\Im E^\\\\circ</equation>. The meaning of symbol <equation>\\Im</equation> in Gibb Free Energy Change is: Faraday.", "tag": "Chemistry,Thermochemistry", "prompt": "What is the meaning of the symbol <equation>\\Im</equation> in Gibb Free Energy Change?"}
{"completion": " The related materials of Negative Logarithms Relationship Acid\u2013base Pair is: 1.Acid base ionization constants (Ka and Kb relationship):<url>https://chem.libretexts.org/Courses/Prince_Georges_Community_College/CHEM_1020%3A_General_Chemistry_II_(S.N._Yasapala)/03%3A_Acids_and_Bases/3.04%3A_Acid_base_ionization_constants_(Ka_and_Kb_relationship)</url>;", "tag": "Chemical,Chemistry", "prompt": "Can you help me find related materials of Negative Logarithms Relationship Acid\u2013base Pair?"}
{"completion": " The equation for Acid Ionization Constant is: <equation>HA_{(aq)}+H_2O_{(l)} \\\\rightleftharpoons H_3O^+_{(aq)}+A^?_{(aq)} \\\\\\\\\\ K_a=\\\\dfrac{[H_3O^+][A^?]}{[HA]} \\\\\\\\\\ HA_{(aq)} \\\\rightleftharpoons H^+_{(aq)}+A^?_{(aq)} \\\\\\\\\\ K_aK_b = K_w</equation>. Here is the brief introduction of Acid Ionization Constant:\n Latex code for the Acid Ionization Constant. The magnitude of the equilibrium constant for an ionization reaction can be used to determine the relative strengths of acids and bases. For example, the general equation for the ionization of a weak acid in water, where HA is the parent acid and A?is its conjugate base, is as follows:\n \n: The parent acid.\n: The conjugate base of parent acid HA.\n: Equilibrium constants for acid\n: Equilibrium constants for conjugate base of the acid\n: Equilibrium constants for any conjugate acid\u00e2\u20ac\u201cbase pair.\n\n\nRelated Documents\n\nAcid base ionization constants (Ka and Kb relationship)\n\nRelated Videos\n\n\n", "tag": "Chemical,Chemistry", "prompt": "What's the meaning of Acid Ionization Constant?"}
{"completion": " The equation for Gibb Free Energy Change is <equation>\\\\Delta G^\\\\circ = \\\\sum {G^\\\\circ _f {\\\\rm{products}}} - \\\\sum {G^\\\\circ _f {\\\\rm{reactants}}} \\\\\\\\\\ \\\\Delta G^\\\\circ = \\\\Delta H^\\\\circ - T\\\\Delta S^\\\\circ \\\\\\\\\\ \\\\Delta G^\\\\circ = - n\\\\Im E^\\\\circ</equation>. The meaning of symbol <equation>T</equation> in Gibb Free Energy Change is: Absolute Temperature.", "tag": "Chemistry,Thermochemistry", "prompt": "What does the symbol mean <equation>T</equation> in Gibb Free Energy Change?"}
{"completion": " The related materials of Speed of Light is: 1.The Rydberg Formula and the Hydrogen Atomic Spectrum:<url>https://chem.libretexts.org/Bookshelves/Physical_and_Theoretical_Chemistry_Textbook_Maps/Physical_Chemistry_(LibreTexts)/01%3A_The_Dawn_of_the_Quantum_Theory/1.05%3A_The_Rydberg_Formula_and_the_Hydrogen_Atomic_Spectrum</url>;2.Bohr model radii:<url>https://www.khanacademy.org/science/physics/quantum-physics/atoms-and-electrons/v/bohr-model-radii</url>;", "tag": "Chemistry,Atomic Structure", "prompt": "Can you help me find related materials of Speed of Light?"}