SCIENCES Courses for School GPA STARPREP® SCIENCES PROGRAMSAP® Chemistry
Given the speed with which scientific discoveries and research continuously expand scientific knowledge, many educators are faced with the challenge of
balancing breadth of content coverage with depth of understanding. The AP® Chemistry addresses this challenge by focusing on a model of instruction which promotes enduring conceptual understandings and the content that supports them. This approach enables students to spend less time on factual recall and more time on inquiry-based learning of essential
concepts, and it helps them develop the reasoning skills necessary to engage in the science practices used throughout their study of AP® Chemistry.
To foster this deeper level of learning, the AP® Chemistry content is defined in a way that distinguishes content essential to support the enduring understandings from the many examples or applications that can overburden the course. Content that is outside the scope of the course and exam is also identified.
This framework encourages student development of inquiry and reasoning skills, such as designing a plan for collecting data, analyzing data, creating models and representations, applying mathematical routines, developing a scientific argument, and connecting concepts in and across domains.
AP® Chemistry
STARPREP®에서 제공하는 AP® Chemistry 프로그램은 총 2개의 PHASES (2024 Spring Semester GPA-Boosting Course / 2024-MAY TEST-PREP Course)을 제공하고 있습니다.
for Graders 9-12 (STARPREP® course code: APCHE)
Professor Issac Kim Massachusetts College of Pharmacy and Health Sciences, Pharmacy Doctor 약학박사졸업 티칭경력 5년차 since 2017
★ Review and Practice (Actual) Tests Course ★ Full-length Paractice Tests problem-solving class
Professor PharmD. Issac Kim Massachusetts College of Pharmacy and Health Sciences, Pharmacy Doctor 약학박사졸업 티칭경력 6년차 since 2017 Class registration is available at any time.
Features
★ 2024 AP® Chemistry ★
Review and Practice (Actual) Tests Course 5월시험대비 실전문제 풀이 및 리뷰수업
Students' Satisfaction : above 99%
Optimizing Concurrent Classrooms (In the Classroom And Online Simultaneously)
★ Comprehensive Review of the Concepts and Theories Course ★ 개념 및 이론 과정에 대한 종합적인 검토 preparing for next semester's progress in advance
Professor PharmD. Issac Kim Massachusetts College of Pharmacy and Health Sciences, Pharmacy Doctor 약학박사졸업 티칭경력 6년차 since 2017 Class registration is available at any time.
Features
★ 2024 AP® Chemistry ★
Comprehensive Review of the Concepts and Theories Course preparing for next semester's progress in advance
Students' Satisfaction : above 99%
Optimizing Concurrent Classrooms (In the Classroom And Online Simultaneously)
AP® Chemistry™
Lecture Dates/Registration Status
1:1 Tutoring Online/In-person Schedule is flexible
★ AP® Chemistry™ 2024 GPAprep & Testprep Course ★ 2024 AP® Chemistry™ 모든 범위 수업
다음학기 GPA 완벽 대비 및 선행수업
Class registration is available at any time.
★ 2024 AP® Chemistry ★
2024 GPAprep & Testprep Course Comprehensive Review of the Concepts and Theories Course Students' Satisfaction : above 97%
Optimizing Concurrent Classrooms (In the Classroom And Online Simultaneously)
AP® Chemistry™
AP® Chemistry™
Curriculum Guide
High School AP® Chemistry
01Atomic Structure and Properties
1-1  Moles and Molar Mass 1-2  Mass Spectroscopy of Elements 1-3  Elemental Composition of Pure Substances 1-4  Composition of Mixtures 1-5  Atomic Structure and Electron Configuration 1-6  Photoelectron Spectroscopy 1-7  Periodic Trends 1-8  Valence Electrons and Ionic Compounds
02Molecular and Ionic Compound Structure and Properties
2-1  Types of Chemical Bonds 2-2  Intramolecular Force and Potential Energy 2-3  Structure of Ionic Solids 2-4  Structure of Metals and Alloys 2-5  Lewis Diagrams 2-6  Resonance and Formal Charge 2-7  VSEPR and Bond Hybridization
03Intermolecular Forces and Properties
3-1  Intermolecular Forces 3-2  Properties of Solids 3-3  Solids, Liquids, and Gases 3-4  Ideal Gas Law 3-5  Kinetic Molecular Theory 3-6  Deviation from Ideal Gas Law 3-7  Solutions and Mixtures 3-8  Representations of Solutions 3-9  Separation of Solutions and Mixtures Chromatography 3-10  Solubility 3-11  Spectroscopy and the Electromagnetic Spectrum 3-12  Photoelectric Effect 3-13  Beer-Lambert Law
04Chemiscal Reactions
4-1  Introduction for Reactions 4-2  Net Ionic Equations 4-3  Representations of Reactions 4-4  Physical and Chemical Changes 4-5  Stoichiometry 4-6  Introduction to Titration 4-7  Types of Chemical Reactions 4-8  Introduction to Acid-Base Reactions 4-9  Oxidation-Reduction (Redox) Reactions
05Kinetics
5-1  Reaction Rates 5-2  Introduction to Rate Law 5-3  Concentration Changes Over Time 5-4  Elementary Reactions 5-5  Collision Model 5-6  Reaction Energy Profile 5-7  Introduction to Reaction Mechanisms 5-8  Reaction Mechanism and Rate Law 5-9  Steady-State Approximation 5-10  Multistep Reaction Energy Profile 5-11  Catalysis
06Thermodynamics
6-1  Endothermic and Exothermic Processes 6-2  Energy Diagrams 6-3  Heat Transfer and Thermal Equilibriu 6-4  Heat Capacity and Calorimetry 6-5  Energy of Phase Changes 6-6  Introduction to Enthalpy of Reaction 6-7  Bond Enthalpies 6-8  Enthalpy of Formation 6-9  Hess’s Law
07Equilibrium
7-1  Introduction to Equilibrium 7-2  Direction of Reversible Reactions 7-3  Reaction Quotient and Equilibrium Constant 7-4  Calculating the Equilibrium Constant 7-5  Magnitude of the Equilibrium Constant 7-6  Properties of the Equilibrium Constant 7-7  Calculating Equilibrium Concentrations 7-8  Representations of Equilibrium 7-9  Introduction to Le Châtelier’s Principle 7-10  Reaction Quotient and Le Châtelier’s Principle 7-11  Introduction to Solubility Equilibria 7-12  Common-Ion Effect 7-13  pH and Solubility 7-14  Free Energy of Dissolution
08Acids and Bases
8-1  Introduction to Acids and Bases 8-2  pH and pOH of Strong Acids and Bases 8-3  Weak Acid and Base Equilibria 8-4  Acid-Base Reactions and Buffers 8-5  Acid-Base Titrations 8-6  Molecular Structure of Acids and Bases 8-7  pH and pKa 8-8  Properties of Buffers 8-9  Henderson-Hasselbalch Equation 8-10  Buffer Capacity
09Applications of Themodynamics
9-1  Introduction to Entropy 9-2  Absolute Entropy and Entropy Change 9-3  Gibbs Free Energy and Thermodynamic Favorability 9-4  Thermodynamic and Kinetic Control 9-5  Free Energy and Equilibrium 9-6  Coupled Reactions 9-7  Galvanic (Voltaic) and Electrolytic Cells 9-8  Cell Potential and Free Energy 9-9  Cell Potential Under Nonstandard Conditions 9-10  Electrolysis and Faraday’s Law
01Atomic Structure and Properties
1-1  Moles and Molar Mass 1-2  Mass Spectroscopy of Elements 1-3  Elemental Composition of Pure Substances 1-4  Composition of Mixtures 1-5  Atomic Structure and Electron Configuration 1-6  Photoelectron Spectroscopy 1-7  Periodic Trends 1-8  Valence Electrons and Ionic Compounds
02Molecular and Ionic Compound Structure and Properties
2-1  Types of Chemical Bonds 2-2  Intramolecular Force and Potential Energy 2-3  Structure of Ionic Solids 2-4  Structure of Metals and Alloys 2-5  Lewis Diagrams 2-6  Resonance and Formal Charge 2-7  VSEPR and Bond Hybridization
03Intermolecular Forces and Properties
3-1  Intermolecular Forces 3-2  Properties of Solids 3-3  Solids, Liquids, and Gases 3-4  Ideal Gas Law 3-5  Kinetic Molecular Theory 3-6  Deviation from Ideal Gas Law 3-7  Solutions and Mixtures 3-8  Representations of Solutions 3-9  Separation of Solutions and Mixtures Chromatography 3-10  Solubility 3-11  Spectroscopy and the Electromagnetic Spectrum 3-12  Photoelectric Effect 3-13  Beer-Lambert Law
04Chemiscal Reactions
4-1  Introduction for Reactions 4-2  Net Ionic Equations 4-3  Representations of Reactions 4-4  Physical and Chemical Changes 4-5  Stoichiometry 4-6  Introduction to Titration 4-7  Types of Chemical Reactions 4-8  Introduction to Acid-Base Reactions 4-9  Oxidation-Reduction (Redox) Reactions
05Kinetics
5-1  Reaction Rates 5-2  Introduction to Rate Law 5-3  Concentration Changes Over Time 5-4  Elementary Reactions 5-5  Collision Model 5-6  Reaction Energy Profile 5-7  Introduction to Reaction Mechanisms 5-8  Reaction Mechanism and Rate Law 5-9  Steady-State Approximation 5-10  Multistep Reaction Energy Profile 5-11  Catalysis
06Thermodynamics
6-1  Endothermic and Exothermic Processes 6-2  Energy Diagrams 6-3  Heat Transfer and Thermal Equilibriu 6-4  Heat Capacity and Calorimetry 6-5  Energy of Phase Changes 6-6  Introduction to Enthalpy of Reaction 6-7  Bond Enthalpies 6-8  Enthalpy of Formation 6-9  Hess’s Law
07Equilibrium
7-1  Introduction to Equilibrium 7-2  Direction of Reversible Reactions 7-3  Reaction Quotient and Equilibrium Constant 7-4  Calculating the Equilibrium Constant 7-5  Magnitude of the Equilibrium Constant 7-6  Properties of the Equilibrium Constant 7-7  Calculating Equilibrium Concentrations 7-8  Representations of Equilibrium 7-9  Introduction to Le Châtelier’s Principle 7-10  Reaction Quotient and Le Châtelier’s Principle 7-11  Introduction to Solubility Equilibria 7-12  Common-Ion Effect 7-13  pH and Solubility 7-14  Free Energy of Dissolution
08Acids and Bases
8-1  Introduction to Acids and Bases 8-2  pH and pOH of Strong Acids and Bases 8-3  Weak Acid and Base Equilibria 8-4  Acid-Base Reactions and Buffers 8-5  Acid-Base Titrations 8-6  Molecular Structure of Acids and Bases 8-7  pH and pKa 8-8  Properties of Buffers 8-9  Henderson-Hasselbalch Equation 8-10  Buffer Capacity
09Applications of Themodynamics
9-1  Introduction to Entropy 9-2  Absolute Entropy and Entropy Change 9-3  Gibbs Free Energy and Thermodynamic Favorability 9-4  Thermodynamic and Kinetic Control 9-5  Free Energy and Equilibrium 9-6  Coupled Reactions 9-7  Galvanic (Voltaic) and Electrolytic Cells 9-8  Cell Potential and Free Energy 9-9  Cell Potential Under Nonstandard Conditions 9-10  Electrolysis and Faraday’s Law
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