Kumpulan Simulasi Kimia
Berikut link simulasi kimia yang berasal dari Mt. Hood Community College (MHCC). Pastikan browser yang kita gunakan sudah terinstall shockwave player atau Klik Disini. Jika tidak ditemukan simulasi yang dimaksud kemungkinan oleh admin MhCC dialihkan yang tentu saja tanpa pemberitahuan. Oleh karena itu dengan senang hati saya menerima informasi keberadaan pranala yang tidak aktif agar dapat segera diperiksa dan diperbaiki jika memungkinkan. Terima kasih.
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Bab 1: Zat dan Pengukuran
- Exercise: Physical Properties of Matter
- Exercise: Identifying Pure Substances and Mixtures
- Tutor: Metric System Prefixes
- Tutor: Unit Conversion
- Significant Figures
- Tutor: Scientific Notation 1, Multiplication and Division
- Tutor: Scientific Notation 2, Raising to a Power
- Tutor: Scientific Notation 3, Square Roots
- Tutor: Density 1
- Tutor: Density 2
- Tutor: Temperature
- Plotter
- Exercise: Periodic Table Organization
- The Periodic Table 1
- The Periodic Table 2
- Exercise: Electric Charge
- Exercise: Radiation and Charge
- Exercise: Cathode Rays
- Exercise: Millikan Oil Drop Experiment
- Exercise: Canal Ray Experiment
- Exercise: The Rutherford Experiment
- Tutor: Summary of Atomic Composition
- Tutor: Average Atomic Mass from Isotopic Abundance
- Tutor: Representing Compounds
- Exercise: Isomers
- Tutor: Naming Compounds of the Nonmetals
- Phases of the Elements
- Ionic Compounds
- Coulomb’s Law
- Tutor: Ions Predicting Charge 1
- Tutor: Ions Predicting Charge 2
- Tutor: Polyatomic Ions
- Simulation: Ionic Compound Formulas
- Nomenclature Tutorial
- Tutor: Naming Ionic Compound Formulas
- Tutor: Moles and Atoms Conversion
- Tutor: Molar Mass Conversion 1
- Tutor: Molar Mass Conversion 2
- Simulation: Compounds and Moles
- Tutor: Determining Molar Mass
- Tutor: Using Molar Mass
- Tutor: Using Molar Mass
- Molecular Weight and Weight Percent
- Formulas and Percent Composition
- Compound Builder
- Tutor: Percent Composition
- Tutor: Empirical Formulas
- Tutor: Molecular Formulas
- Tutor: Hydrated Compounds
- Exercise: Analysis of a Mixture
- Exercise: The Law of Conservation of Matter 1
- Exercise: The Law of Conservation of Matter 2
- Tutor: Balancing Chemical Equations
- Balancing Equations
- Limiting Reagents (Stoichiometry)
- Exercise: Weight Relations in Chemical Reactions
- Exercise: Limiting Reactants Redox Reactions
- Simulation: Limiting Reactants
- Tutor: Theoretical Yield
- Tutor: Stoichiometry Theoretical Yield
- Tutor: Percent Yield
- Tutor: Chemical Analysis
- Exercise: Dissolving Ionic Compounds
- Molarity Calculations
- Tutor: Solution Concentration
- Tutor: Ion Concentration
- Tutor: Direct Addition
- Exercise: Direct Addition Method
- Tutor: Dilution
- Exercise: Dilution Method
- Tutor: Solution Stoichiometry 1
- Exercise: Solution Stoichiometry
- Tutor: Solution Stoichiometry 2
- Tutor: Titration mL Titrant Used
- Tutor: Concentration of Unknown via Titration
- Tutor: Concentration of Unknown via Titration
- Simulation: Acid Ionization
- Simulation: Solubility of Ionic Compounds
- Tutor: Solubility of Ionic Compounds
- Tutor: Net Ionic Equations
- Tutor: Assigning Oxidation Numbers
- Exercise: Exploring Chemical Reactions 1
- Exercise: Exploring Chemical Reactions 2
- Oxidation Numbers Tutorial
- Exercise: Redox Reactions
- Tutor: Precipitation Reactions
- Tutor: Recognizing Reactions
- Bab 5: Prinsip Reaktivitas Kimia: Energi dan Reaksi Kimia
- Bab 6: Struktur Atom
- Tutor: Determining Frequency
- Tutor: Determining Wavelength
- Simulation: The Electromagnetic Spectrum
- Electromagnetic Spectrum
- Orbital Energies
- Atomic Absorption and Emission
- UV-Vis Absorbance Spectroscopy
- Simulation: Planck’s Equation
- Tutor: Energy of Light
- Exercise: Atomic Line Spectra
- Simulation: Atomic Absorption and Emission
- Tutor: The Hydrogen Atom
- Tutor: Matter Waves
- Tutor: Quantum Numbers
- Exercise: Shapes of Atomic Orbitals
- Exercise: Node
- Bab 7: Structure Atoms dan Sifat Periodik
- Atomic Electronic Configurations
- Tutor: Electron Configurations of Ions
- Simulation: Electron Configurations of Ions
- Simulation: Orbital Energies
- Simulation: Effective Nuclear Charge
- Tutor: Electron Configurations 2
- Tutor: Electron Configurations and Magnetism
- Tutor: Electron Configurations 1
- Simulation: Electron Configurations of Ions
- Simulation: Atomic Size
- Simulation: Ion Charge
- Simulation: Ion Size
- Simulation: Ionization Energy
- Simulation: Electron Affinity
- Bab 8: Ikatan Kimia dan Struktur Molekul
- Tutor: Interpreting Lewis Electron Dot Structures
- Tutor: Drawing Lewis Structures
- Exercise: Drawing Lewis Structures
- Tutor: Resonance Structures
- Formal Charges Tutorial
- The VSEPR Jmol Molecule Visualization Page
- Tutor: Ideal Repulsion Shapes
- Tutor: Determining Molecular Shapes
- Exercise: Determining Molecular Shapes
- Tutor: Electron Deficient Compounds
- Exercise: Determining Polarity
- Molecular Polarity
- Tutor: Sigma Bonding
- Tutor: Determining Hybrid Orbitals
- Tutor: Multiple Bonding Pi Bonding
- Bab 9: Ikatan Kimia dan Struktur Molekul: Hibridisasi Orbital dan Orbital Molecul
- Tutor: Hybridization 1
- Tutor: Hybridization 2
- Exercise: Identifying Bonding and Antibonding Orbitals
- Tutor: Homonuclear, Diatomic Molecules
- Metallic Bonding
- Simulation: Metallic Bonding: Band Theory
- Exercise: Semiconductors
- Bab 10: Karbon: Unsur Istimewa :)
- Tutor: Functional Group Identification
- Exercise: Identifying Isomers vs. Conformers
- Tutor: Predicting the Products of Addition Reactions
- Exercise: Identification of Elimination or Substitution Reactions
- Simulation: Markovnikov’s Rule
- Tutor: Amino Acids and Proteins
- Bab 11: Gas dan Sifat-sifatnya
- Gas Laws
- Tutor: Ideal Gas Law
- Simulation: Ideal Gas Law
- Simulation: Determining Gas Density
- Density of Gases
- Tutor: Finding Molecular Weight of Gases
- Exercise: Exploring Gas Density
- Tutor: Determining Molar Mass
- Tutor: Stoichiometry of Gases
- Tutor: Partial Pressures 1
- Tutor: Partial Pressures 2
- Simulation: Kinetic Molecular Theory
- Gas Phase Boltzmann Distribution
- Simulation: Boltzman Distributions
- Tutor: Molecular Speed
- Exercise: Diffusion
- Tutor: Effusion
- Bab 12 dan Bab 13: Gaya Intermolekul, Cairan, dan Padatan
- Boiling Points
- Tutor: Enthalpy of Vaporization
- Tutor: Heat of Vaporization from Graph
- Tutor: Vapor Pressure at New Temperature
- Tutor: Heat of Vaporization from Temperature and Pressure
- Simulation: Vapor Pressure
- Equilibrium Vapor Pressure
- Exercise: Butane Lighters
- Simulation: Molecular Structure and Boiling Point
- Simulation: Vapor Pressure and Boiling Point
- Exercise: Phase Diagram
- Exercise: Calculating Density from Ion Radii and Structure
- Bab 14: Larutan dan Prilakunya
- Exercise: Solubility
- Enthalpy of Dissolution
- Exercise: Dissolving Ionic Compounds
- Exercise: Factors Affecting Solubility 1
- Tutor: Factors Affecting Solubility 2
- Tutor: Effect of Temperature Change on Solubility
- Raoult’s Law
- Tutor: Vapor Pressure and Boiling Point Elevation
- Exercise: Vapor Pressure Changes and Raolt’s Law
- Tutor: Boiling Point Elevation
- Tutor: Freezing Point Depression
- Boiling Point Elevation and Freezing Point Depression
- Exercise: Effect of Ionic Compounds on Boiling Point
- Exercise: Effect of Ionic Compounds on Freezing Point
- Tutor: Osmotic Pressure
- Bab 15: Kinetika Kimia: Laju Reaksi Kimia
- Tutor: Concentration Dependence
- Simulation: Concentration Dependence
- Exercise: Determining the Rate Equation
- Rates of Reaction
- Tutor: Concentration-Time Relationships
- Tutor: Determining the Rate Law
- Simulation: Reaction Coordinate Diagrams
- Exercise: Identification of Reaction Mechanisms
- Exercise: Reaction Mechanisms and Rate Equations
- Simulation: The Arrhenius Equation
- Tutor: Temperature Dependence 1
- Tutor: Temperature Dependence 2
- Tutor: Temperature Dependence 2
- Exercise: Temperature Dependence
- Exercise: Identifying Catalysts 2
- Exercise: Identifying Catalysts 1
- Exercise: Identifying Catalysts 3
- Bab 16: Prinsip Reaktivitas Kimia: Kesetimbangan
- Simulation: Equilibrium State
- Simulation: Equilibrium Constant
- Simulation: The Meaning of the Equilibrium Constant
- Simulation: Writing Equilibrium Expressions
- Chemical Equilibrium
- Tutor: Writing Equilibrium Expressions
- Tutor: Determining the Equilibrium Constant
- Tutor: Systems at Equilibrium
- Simulation: Chromatography and Equilibrium
- Tutor: Estimating Equilibrium Concentrations
- Le Chatelier’s Principle
- Tutor: Effect of Temperature on Equilibrium
- Simulation: Disturbing a Chemical Equilibrium
- Tutor: Addition of a Reagent and Equilibria
- Simulation: Equilibria and Volume
- Bab 17: Prinsip Reaktivitas Kimia: Kimia Asam dan Basa
- Simulation: Autoionization
- Simulation: The pH Scale
- Exercise: Bronsted Acids-Base Reactions
- Acids and Bases
- Tutor: Bronsted Acids and Bases
- Tutor: The pH Scale
- Tutor: Determining Ka and Kb Values
- Tutor: Estimating the pH of Weak Acid Solutions
- Tutor: Estimating the pH of Weak Base Solutions
- Simulation: Hydrolysis
- Exercise: Lewis Acids and Bases
- Tutor: Lewis Acids and Bases
- Tutor: Neutral Lewis Acids
- Exercise: Neutral Lewis Acids
- Bab 18 Bagian I: Prinsip Reaktivitas Kimia: Reaksi Asam-Basa
- Simulation: Acid-Base Reactions
- Simulation: Common Ion Effect
- Tutor: Buffer Solutions
- Simulation: Buffer Solutions
- Simulation: pH of Buffer Solutions
- Tutor: pH of Buffer Solutions
- Simulation: Buffer Solutions: Preparation of Solutions
- Tutor: Buffer Solutions: Preparation by Direct Addition
- Tutor: Buffer Solutions: Preparation by Acid-Base Reactions
- Tutor: Buffer Solutions: Addition of Reagents
- Exercise: Buffer Solutions: Addition of Reagents
- Buffers and pH
- pH using the Henderson-Hasselbach Equation
- Titrations
- Tutor: Interpreting a pH-Titration Curve
- Simulation: Titration Curves
- Bab 18 Bagian II: Prinsip Reaktivitas Kimia: Kelarutan
- Tutor: Solubility Product Constant Expressions
- Simulation: Exploring the Solubility Product Constant
- Tutor: Determining the Solubility Product Constant
- Tutor: Solubility of Salts and Common Ions
- Simulation: Precipitation Reaction Systems
- Tutor: Determining if a Precipitation Reaction Will Occur
- Tutor: The Common Ion Effect
- Simulation: The Common Ion Effect
- Simulation: Solubility and pH
- Tutor: Solubility and pH
- Tutor: Solubility of Complex Ions
- Exercise: Solubility of Metal Ions
- Bab 19: Prinsip Reaktivitas Kimia: Entropi dan Energi Bebas
- Gibb’s Law of Thermodynamics
- Tutor: Thermodynamics and the Equilibrium Constant
- Simulation: Thermodynamics and the Equilibrium Constant
- Chapter 20: Principles of Chemical Reactivity: Electron Transfer Reactions
- Oxidation Numbers Tutorial
- Tutor: Voltaic Cell Potentials
- Simulation: Voltaic Cells Under Standard Conditions
- Tutor: Voltaic Cells Under Non-standard Conditions
- Electrolysis
- Tutor: Coulometry
- Tutor: Cell Potential and the Equilibrium Constant
- Tutor: Cell Potential and Free Energy Change
- Bab 23: Kimia Inti
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