Online Past Years based questions with Answer for IB DP Chemistry SL Paper 1
This is a comprehensive Question Banks based on last many years of Test papers targeted towards IB DP Chemistry SL Paper 1, which includes all the following :
Topic wise Online Questions
- Topic wise online practice Questions with Solution from complete syllabus.
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- Hints & Solutions.
- Get an idea of DP examination papers used in past years.
- More than 1000 Questions to practice.
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Curriculum
- 12 Sections
- 215 Lessons
- 12 Weeks
Expand all sectionsCollapse all sections
- Structure 1. Models of the particulate nature of matter5
- Structure 2. Models of bonding and structure4
- Structure 3. Classification of matter2
- Reactivity 1. What drives chemical reactions?4
- Reactivity 2. How much, how fast and how far?3
- Reactivity 3. What are the mechanisms of chemical change?4
- IB DP Chemistry HL Study Notes 2025 Syllabus166
- 7.1Structure 1.1.1 Elements, Compounds and Mixtures Study Notes
- 7.2Structure 1.1.2 The Kinetic Molecular Theory Study Notes
- 7.3Structure 1.1.3 Temperature and Kinetic Energy Study Notes
- 7.4Structure 1.2.1 Atomic Structure Study Notes
- 7.5Structure 1.2.2 Isotopes Study Notes
- 7.6Structure 1.2.3 Mass Spectrometry (Higher Level Only) Study Notes
- 7.7Structure 1.3.1 Emission spectra and energy levels Study Notes
- 7.8Structure 1.3.2 Hydrogen emission spectrum Study Notes
- 7.9Structure 1.3.3 Main energy levels Study Notes
- 7.10Structure 1.3.4 Sublevels and orbitals Study Notes
- 7.11Structure 1.3.5 Orbital configurations and rules Study Notes
- 7.12Structure 1.3.6 Ionization energy (Higher Level Only) Study Notes
- 7.13Structure 1.3.7 Successive ionization energies (Higher Level Only) Study Notes
- 7.14Structure 1.4.1 The mole and Avogadro constant Study Notes
- 7.15Structure 1.4.2 Relative atomic and formula masses Study Notes
- 7.16Structure 1.4.3 Molar mass Study Notes
- 7.17Structure 1.4.4 Empirical and molecular formulas Study Notes
- 7.18Structure 1.4.5 Molar concentration Study Notes
- 7.19Structure 1.4.6 Avogadro’s law Study Notes
- 7.20Structure 1.5.1 The ideal gas model Study Notes
- 7.21Structure 1.5.2 Deviations from ideal gas behavior Study Notes
- 7.22Structure 1.5.3 Molar volume of an ideal gas Study Notes
- 7.23Structure 1.5.4 The ideal gas equation Study Notes
- 7.24Structure 2.1.1 Formation of ions Study Notes
- 7.25Structure 2.1.2 Ionic bonds and binary compounds Study Notes
- 7.26Structure 2.1.3 Lattice structures and properties Study Notes
- 7.27Structure 2.2.1 Formation of covalent bonds Study Notes
- 7.28Structure 2.2.2 Single, double and triple bonds Study Notes
- 7.29Structure 2.2.3 Coordination bonds Study Notes
- 7.30Structure 2.2.4 VSEPR theory Study Notes
- 7.31Structure 2.2.5 Bond polarity Study Notes
- 7.32Structure 2.2.6 Molecular polarity Study Notes
- 7.33Structure 2.2.7 Covalent network structures Study Notes
- 7.34Structure 2.2.8 Intermolecular forces Study Notes
- 7.35Structure 2.2.9 Intermolecular forces and physical properties Study Notes
- 7.36Structure 2.2.10 Chromatography Study Notes
- 7.37Structure 2.2.11 Resonance structures (Higher Level Only) Study Notes
- 7.38Structure 2.2.12 Benzene (Higher Level Only) Study Notes
- 7.39Structure 2.2.13 Expanded Octet of Electrons (Higher Level Only) Study Notes
- 7.40Structure 2.2.14 Formal Charge and Lewis Formulas (Higher Level Only) Study Notes
- 7.41Structure 2.2.15 Sigma and Pi Bonds (Higher Level Only) Study Notes
- 7.42Structure 2.2.16 Hybridization and Bonding (Higher Level Only) Study Notes
- 7.43Structure 2.3.1 Metallic bonding and properties of metals Study Notes
- 7.44Structure 2.3.2 Strength of metallic bonds Study Notes
- 7.45Structure 2.3.3 Transition elements and delocalized d-electrons (Higher Level Only) Study Notes
- 7.46Structure 2.4.1 Bonding as a continuum Study Notes
- 7.47Structure 2.4.2 Position in the bonding triangle Study Notes
- 7.48Structure 2.4.3 Alloys Study Notes
- 7.49Structure 2.4.4 Polymers Study Notes
- 7.50Structure 2.4.5 Addition polymers Study Notes
- 7.51Structure 2.4.6 Condensation polymers (Higher Level Only) Study Notes
- 7.52Structure 3.1.1 The Structure of the Periodic Table Study Notes
- 7.53Structure 3.1.2 Electron Configuration and Group Trends Study Notes
- 7.54Structure 3.1.3 Periodicity of Properties Study Notes
- 7.55Structure 3.1.4 Trends in Chemical Reactivity Study Notes
- 7.56Structure 3.1.5 Metallic and Non-metallic Oxides Study Notes
- 7.57Structure 3.1.6 Oxidation States Study Notes
- 7.58Structure 3.1.7 Discontinuities in Ionization Energy Trends (Higher Level Only) Study Notes
- 7.59Structure 3.1.8 Properties of Transition Elements (Higher Level Only) Study Notes
- 7.60Structure 3.1.9 Oxidation States of Transition Elements (Higher Level Only) Study Notes
- 7.61Structure 3.1.10 Color of Transition Metal Complexes (Higher Level Only) Study Notes
- 7.62Structure 3.2.1 Representation of organic compounds Study Notes
- 7.63Structure 3.2.2 Functional groups Study Notes
- 7.64Structure 3.2.3 Homologous series Study Notes
- 7.65Structure 3.2.4 Physical trends in homologous series Study Notes
- 7.66Structure 3.2.5 IUPAC nomenclature Study Notes
- 7.67Structure 3.2.6 Structural isomers Study Notes
- 7.68Structure 3.2.7 Stereoisomers (Higher Level Only) Study Notes
- 7.69Structure 3.2.8 Mass spectrometry (Higher Level Only) Study Notes
- 7.70Structure 3.2.9 Infrared spectra (Higher Level Only) Study Notes
- 7.71Structure 3.2.10 Proton nuclear magnetic resonance spectroscopy (Higher Level Only) Study Notes
- 7.72Structure 3.2.11 H NMR spectra interpretation (Higher Level Only) Study Notes
- 7.73Structure 3.2.12 Structural analysis (Higher Level Only) Study Notes
- 7.74Reactivity 1.1.1 Energy transfer in chemical reactions Study Notes
- 7.75Reactivity 1.1.2 Endothermic and exothermic reactions Study Notes
- 7.76Reactivity 1.1.3 Energy profiles Study Notes
- 7.77Reactivity 1.1.4 Standard enthalpy change Study Notes
- 7.78Reactivity 1.1.5 Practical considerations Study Notes
- 7.79Reactivity 1.2.1 Bond enthalpy Study Notes
- 7.80Reactivity 1.2.2 Hess’s Law Study Notes
- 7.81Reactivity 1.2.3 Standard enthalpy changes of combustion and formation (Higher Level Only) Study Notes
- 7.82Reactivity 1.2.4 Hess’s Law with combustion and formation data (Higher Level Only) Study Notes
- 7.83Reactivity 1.2.5 Born–Haber Cycle (Higher Level Only) Study Notes
- 7.84Reactivity 1.3.1 Combustion fuels Study Notes
- 7.85Reactivity 1.3.2 Incomplete combustion Study Notes
- 7.86Reactivity 1.3.3 Fossil fuels Study Notes
- 7.87Reactivity 1.3.4 Biofuels Study Notes
- 7.88Reactivity 1.3.5 Fuel cells Study Notes
- 7.89Reactivity 1.4.1 Entropy (S) (Higher Level Only) Study Notes
- 7.90Reactivity 1.4.2 Gibbs free energy (ΔG) (Higher Level Only) Study Notes
- 7.91Reactivity 1.4.3 Spontaneity and Gibbs free energy (Higher Level Only) Study Notes
- 7.92Reactivity 1.4.4 Gibbs free energy and equilibrium (Higher Level Only) Study Notes
- 7.93Reactivity 2.1.1 Chemical equations and stoichiometry Study Notes
- 7.94Reactivity 2.1.2 Using the mole ratio Study Notes
- 7.96Reactivity 2.1.3 Limiting and excess reactants Study Notes
- 7.97Reactivity 2.1.4 Percentage yield Study Notes
- 7.98Reactivity 2.1.5 Atom economy Study Notes
- 7.99Reactivity 2.2.1 Rate of reaction Study Notes
- 7.100Reactivity 2.2.2 Collision theory Study Notes
- 7.101Reactivity 2.2.3 Factors affecting the rate of reaction Study Notes
- 7.102Reactivity 2.2.4 Activation energy Study Notes
- 7.103Reactivity 2.2.5 Catalysts Study Notes
- 7.104Reactivity 2.2.6 Reaction mechanisms and rate-determining steps (Higher Level Only) Study Notes
- 7.105Reactivity 2.2.7 Energy profiles and transition states (Higher Level Only) Study Notes
- 7.106Reactivity 2.2.8 Molecularity (Higher Level Only) Study Notes
- 7.107Reactivity 2.2.9 Rate equations (Higher Level Only) Study Notes
- 7.108Reactivity 2.2.10 Order of a reaction (Higher Level Only) Study Notes
- 7.109Reactivity 2.2.11 Rate constant (Higher Level Only) Study Notes
- 7.110Reactivity 2.2.12 Arrhenius equation (Higher Level Only) Study Notes
- 7.111Reactivity 2.2.13 Arrhenius factor (Higher Level Only) Study Notes
- 7.112Reactivity 2.3.1 Dynamic equilibrium Study Notes
- 7.113Reactivity 2.3.2 The equilibrium law and constant Study Notes
- 7.114Reactivity 2.3.3 Magnitude of K and temperature dependence Study Notes
- 7.115Reactivity 2.3.4 Le Châtelier’s principle Study Notes
- 7.116Reactivity 2.3.5 Reaction quotient (Q) (Higher Level Only) Study Notes
- 7.117Reactivity 2.3.6 Quantifying equilibrium concentrations (Higher Level Only) Study Notes
- 7.118Reactivity 2.3.7 Gibbs free energy and equilibrium (Higher Level Only) Study Notes
- 7.119Reactivity 3.1.1 Brønsted–Lowry acid-base theory Study Notes
- 7.120Reactivity 3.1.2 Conjugate acid-base pairs Study Notes
- 7.121Reactivity 3.1.3 Amphiprotic species Study Notes
- 7.122Reactivity 3.1.4 pH and the hydrogen ion concentration Study Notes
- 7.123Reactivity 3.1.5 The ion product of water (Kw) Study Notes
- 7.124Reactivity 3.1.6 Strong and weak acids and bases Study Notes
- 7.125Reactivity 3.1.7 Neutralization reactions Study Notes
- 7.126Reactivity 3.1.8 pH curves for neutralization Study Notes
- 7.127Reactivity 3.1.9 pOH scale (Higher Level Only) Study Notes
- 7.128Reactivity 3.1.10 Acid and base strength and constants (Higher Level Only) Study Notes
- 7.129Reactivity 3.1.11 Conjugate Acid-Base pair (Higher Level Only) Study Notes
- 7.130Reactivity 3.1.12 The pH of a salt solution (Higher Level Only) Study Notes
- 7.131Reactivity 3.1.13 pH curves of Acid-Base combinations (Higher Level Only) Study Notes
- 7.132Reactivity 3.1.14 Acid-Base indicators and pH changes (Higher Level Only) Study Notes
- 7.133Reactivity 3.1.15 Appropriate indicators for titration (Higher Level Only) Study Notes
- 7.134Reactivity 3.1.16 Buffer solutions (Higher Level Only) Study Notes
- 7.135Reactivity 3.1.17 The pH of a buffer solution (Higher Level Only) Study Notes
- 7.136Reactivity 3.2.1 Oxidation and reduction definitions Study Notes
- 7.137Reactivity 3.2.2 Redox half-equations Study Notes
- 7.138Reactivity 3.2.3 Reactivity of elements based on periodic trends Study Notes
- 7.139Reactivity 3.2.4 Acid-metal reactions Study Notes
- 7.140Reactivity 3.2.5 Electrochemical cells: Oxidation and reduction Study Notes
- 7.141Reactivity 3.2.6 Primary (voltaic) cells Study Notes
- 7.142Reactivity 3.2.7 Secondary (rechargeable) cells Study Notes
- 7.143Reactivity 3.2.8 Electrolytic cells Study Notes
- 7.144Reactivity 3.2.9 Oxidation of organic compounds Study Notes
- 7.145Reactivity 3.2.10 Reduction of functional groups Study Notes
- 7.146Reactivity 3.2.11 Reduction of unsaturated compounds Study Notes
- 7.147Reactivity 3.2.12 Standard electrode potentials (Higher Level Only) Study Notes
- 7.148Reactivity 3.2.13 Standard cell potential (Higher Level Only) Study Notes
- 7.149Reactivity 3.2.14 Gibbs free energy and cell potential (Higher Level Only) Study Notes
- 7.150Reactivity 3.2.15 Electrolysis of aqueous solutions (Higher Level Only) Study Notes
- 7.151Reactivity 3.2.16 Electroplating (Higher Level Only) Study Notes
- 7.152Reactivity 3.3.1 Radicals Study Notes
- 7.153Reactivity 3.3.2 Homolytic fission Study Notes
- 7.154Reactivity 3.3.3 Substitution reactions with alkanes Study Notes
- 7.155Reactivity 3.4.1 Nucleophiles Study Notes
- 7.156Reactivity 3.4.2 Nucleophilic substitution reactions Study Notes
- 7.157Reactivity 3.4.3 Heterolytic fission Study Notes
- 7.158Reactivity 3.4.4 Electrophiles Study Notes
- 7.159Reactivity 3.4.5 Electrophilic attack Study Notes
- 7.160Reactivity 3.4.6 Lewis acid (Higher Level Only) Study Notes
- 7.161Reactivity 3.4.7 Lewis acid-base reaction (Higher Level Only) Study Notes
- 7.162Reactivity 3.4.8 Ligands and coordination bond (Higher Level Only) Study Notes
- 7.163Reactivity 3.4.9 SN1 and SN2 mechanisms (Higher Level Only) Study Notes
- 7.164Reactivity 3.4.10 Rate of the substitution reactions (Higher Level Only) Study Notes
- 7.165Reactivity 3.4.11 Electrophilic addition (Higher Level Only) Study Notes
- 7.166Reactivity 3.4.12 The relative stability of carbocations (Higher Level Only) Study Notes
- 7.167Reactivity 3.4.13 Reactions between benzene and electrophiles (Higher Level Only) Study Notes
- IB DP Chemistry HL Paper 1B-Data Based Questions Sets2
- IB DP Chemistry HL Paper 1A Mock Exam5
- IB DP Chemistry HL Paper 1B Mock Exam5
- IB Chemistry HL – Full Syllabus Questions with Detailed Solution13
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- 11.102020-Set 3-Chemistry_paper_1
- 11.112019-Set 1-Chemistry_paper_1
- 11.122019-Set 2-Chemistry_paper_1
- 11.132019-Set 3-Chemistry_paper_1
- IB DP Chemistry HL Paper 1 Prediction Paper2
