377搜索结果匹配的AP Physics B
仿真程序
- Alpha衰变
- Beta衰变
- (自旋量子化)实验
- 半导体
- 比率和比例 (HTML5)
- 标准振荡
- 波的干涉 (HTML5)
- 波动入门 (HTML5)
- 部分电路欧姆定律 (HTML5)
- 磁场和电流磁效应
- 磁体和指南针
- 戴维森、杰默:电子衍射
- 电场、电荷
- 电池电压
- 电池-电阻电路
- 电荷辐射
- 电荷曲棍球
- 电荷与电场 (HTML5)
- 电路组建实验:直流 (HTML5)
- Circuit Construction Kit: AC (HTML5)
- 电容器实验
- 电容器实验:基础 (HTML5)
- 电线的电阻 (HTML5)
- 二项分布弹珠台几率 (HTML5)
- 发电机
- 法拉第电磁感应实验
- 法拉第定律 (HTML5)
- 放射线定年游戏
- 分子马达
- 分子与光 (HTML5)
- 浮力
- 傅里叶:生成波
- 共振
- 光的混合 (HTML5)
- 光的折射 (HTML5)
- 光电效应
- 光量子控制
- 光学镊子与应用
- 核裂变
- 黑体辐射 (HTML5)
- 胡克定律 (HTML5)
- 化学反应平衡
- 激光器
- 几何光学 (HTML5)
- 简化的核磁共振NMR
- 交流虚拟实验室 (HTML5)
- 静电电压 (HTML5)
- 静电电压
- 可逆反应
- 库仑定律 (HTML5)
- 扩散 (HTML5)
- 拉伸DNA
- 力和运动
- 力和运动:基础 (HTML5)
- 力矩
- 量子波干涉
- 量子束缚态
- 量子隧道与波包
- 卢瑟福散射 (HTML5)
- 迷宫小游戏
- 密度 (HTML5)
- 摩擦力 (HTML5)
- 氖灯和其它霓虹灯原理
- 能带结构
- 能量的形式和转换 (HTML5)
- 能量滑板竞技场 (HTML5)
- 能量滑板竞技场: 基础 (HTML5)
- 碰撞实验室 (HTML5)
- 瓢虫在平面上运动
- 平衡探究实验 (HTML5)
- 平面运动
- 气球和浮力
- 气球和静电(摩擦起电) (HTML5)
- 气球和静电
- 气体基础 (HTML5)
- 气体性质 (HTML5)
- 氢原子模型
- 曲线拟合 (HTML5)
- 声音
- 绳波 (HTML5)
- 受到压力 (HTML5)
- 双井和共价键
- 万有引力实验 (HTML5)
- 微波
- 温室效应
- 无线电波与电磁场
- 物体导电性能实验
- 物质状态:基础 (HTML5)
- 物质状态 (HTML5)
- 向量相加 (HTML5)
- 斜面
- 斜抛运动 (HTML5)
- 斜坡:力与运动
- 信号电路
- 旋转的瓢虫
- 液体的流动与压力
- 一维空间的作用力
- 引力实验室:基础 (HTML5)
- 原子的相互作用 (HTML5)
- 原子模型 (HTML5)
- 月球登陆器
- 运动图像
- 电路组建实验:直流虚拟实验室 (HTML5)
- 质量和弹簧 (HTML5)
- 质量与弹簧:基础 (HTML5)
- 钟摆实验 (HTML5)
- 重力和轨道 (HTML5)
- 重物和弹簧
- Calculus Grapher (HTML5)
- My Solar System (HTML5)
- Build a Nucleus (HTML5)
- Fourier: Making Waves (HTML5)
- Geometric Optics: Basics (HTML5)
- Kepler's Laws (HTML5)
活动
- PhET Simulations Aligned for AP Physics C
- AP Physics Orbit Lab
- AP Physics PhET Projectile Motion Lab
- 'Lectronic Plates
- Mapping Electric Fields
- The Two-Plate Special
- Photoelectric Effect Phet Worksheet (AP Physics 2)
- Spring Force, Spring Constant and Elastic Potential Energy
- Physics Graphing and Introduction to Models
- Gas Properties Phet Simulation worksheet (AP Physics 2)
- Springs and Things
- Concept questions for Physics using PhET (Inquiry Based)
- AP Physics Gravity Lab
- Activity: My Solar System for APP1
- Pendulum Inquiry and Lab Report
- Fluid Pressure and Flow Phet Simulation worksheet
- 2D Collision Lab
- Lab: Capacitance
- Virtual Lab
- Chaos Physics
- Interactive Photoelectric Effect Lab
- Gravity Force Investigation (AP)
- Photoelectric Effect (AP)
- Lab: Electric Field & Electric Potential
- Under Pressure
- Beer's Law: An AP Chemistry Activity
- DC circuits lab with real equipment and CCK
- Wave Interference with Water Waves (AP)
- Static Pressure
- Algebra-based Physics Semester one lessons, clicker questions, and schedule in pdf (Inquiry Based)
- Natural Selection - 7.2 AP BIOLOGY
- DC Circuit Lab
- Waves on a String HTML5 PreAP Lesson
- Roller Coaster Physics Investigation
- The physics of the triple jump
- Energy Skate Park Formal Lab
- Compendio de Actividades e ILDs basadas en simulaciones PhET
- Reflection and Transmission Interactive Lecture
- Lab Photoelectric Effect
- Maze Game- A Velocity & Acceleration Comparison
- physics is fun
- Mapping of PhET and IBDP Physics
- Swinging Physics Using Pendulum Phet
- Testing Ideas from Classical and Quantum Physics
- MYP Physics: Gravitational force vs. Distance
- Gravity Force Lab PreAP using HTML5 Sim
- Projectile Motion - Physics 1 lab experiment
- Universal Gravity-building formula, quantitative with graphing
- Collision investigation lab
- Regents Physics- Projectile Motion Intro
- MYP Physics: Electric Force vs. Distance
- Projectile Motion - Physics 1 Lab
- Electric fields
- Pendulum Lab
- My Solar System
- Density Exploration
- Operon Modeling 2.0
- Vector Addition Worksheet
- Chemistry - Introduction to Coulomb's Law
- Equation Grapher: Sketching Linear and Parabolic Graphs (Inquiry Based)
- PhET Energy Skate park
- vectors
- Conservation of Energy Exploration with Skatepark Physics
- Water Waves in an Electric Sink
- Vectors for Physics 1
- 2.6 APES: Adaptation & Natural Selection
- Projectiles Air Resistance - It's a Drag
- Charges and Fields
- Concentration - Interactive Lecture Demonstration
- Acid Base Solutions - Concentration and Strength
- Exploring the Energy Skate Park
- Physics Lab Worksheet Momentum.docx
- Gravity Force Lab
- Maze Game 1: Using vector representations to move through a maze (Inquiry Based)
- Potential Difference in Circuits
- A PhET-Based Laboratory Activity in Teaching Direct Current Circuits (Guided Inquiry with Formative Assessment)
- Action Potential Simulation - Guided Inquiry Activity
- การบวกลบเวกเตอร์
- Simple Pendulum
- การทดลองที่ 11 วงจรไฟฟ้ากระแสตรง
- LAB การสะท้อนและการหักเหแสง
- Hook's Law
- การทดลองที่ 6 คลื่นในเส้นเชือก
- LAB การต่อแบตเตอรีและการประยุกต์ใช้งาน
- Free-Fall and Projectile Motion
- Exploring Gravitation
- vector addition
- PhET Collision Lab
- Kinetic Molecular Theory- Introduction (inquiry-based)
- Equilibrium Inquiry and Experiment Activity
- Circuit Construction Kit
- Intermolecular Forces and States of Matter - Interactive Lecture Demonstration
- Beer's Law Lab - Guided Inquiry Activity
- Energy Skate Park Basics: Mechanical Energy Lab
- Vector addition worksheet
- Undergrad MRI Workshop Activity
- El tianguis de las razones unitarias
- Guided Discovery (Chinese/English) for Freshman University Physics: 5. Introduction to Waves
- Guided Discovery (Chinese/English) for Freshman University Physics: 6. Wave Interference
- Guided Discovery (Chinese/English) for Freshman University Physics: 2. Newtonian Mechanics
- Guided Discovery (Chinese/English) for Freshman University Physics: 1. Kinematics
- Guided Discovery (Chinese/English) for Freshman University Physics: 3. Energy & Momentum
- Guided Discovery (Chinese/English) for Freshman University Physics: 4. Rotations & Oscillations
- Computer Simulations as a Tool to Assist Teaching Basics of Electromagnetism (Simulações Computacionais Como Ferramenta Auxiliar ao Ensino de Conceitos Básicos de Eletromagnetismo)
- Projectile motion
- Magnetism
- Friction Experiment
- Capacitor Lab: Basics: Inquiry into Capacitor Design
- Vector Addition Worksheet
- Vectors worksheet
- PhET Lab States of Matter Basics
- Horizontal Launch Investigation
- Ispitivanje fotoelektricnog efekta pomocu PhET simulacije
- Waves on a String AP1
- Davisson Germer lecture and homework
- Alpha Decay investigations
- Molecules and Light - Guided Inquiry Activity
- ¡La cuadrática es curva!
- Quest for the Coulomb Cup
- Hooke's Law inquiry lab
- Middle School - Electric Circuits
- Middle School - series and parallel circuits
- Projectile motion worksheet
- Projectile Motion Experiments
- Visualizing Mixing with Sugar and Salt Solutions
- Gene Regulation Guided Simulation
- Gases Understanding physical properties of gases (Inquiry Based)
- EM wave analogy tutorial
- Density-introduction
- Electrostatics Simulation lab
- Introduction to Discharge Lamps
- How to make a laser
- Understanding the Photoelectric Effect
- Wave Particle Duality
- Intro to Photoelectric Effect Interactive Lecture
- Probability and Randomness Interactive Lecture
- The Photoelectric Effect and Work Functions
- Rutherford Experiment
- Beta Decay Investigations
- Circuit activity 3 Combination Circuits (Inquiry Based)
- Circuit Lab 2 - Series and Parallel Circuits
- Atomic models homework (Inquiry based)
- Horizontal projectile motion
- Forces and Motion: Finding the Mass of a Car
- Eksperimen Boyle dan Gay-Lussac
- To study the dependance of time period on (i) length of the pendulum and (ii) acceleration due to gravity
- Bailando al son de las razones
- Matemáticas futboleras ¿y la mediana?
- Artistas mediterráneas
- La función misteriosa
- Bouncing Off the Walls
- Pixel Peeping
- Cavendish Lab
- Climate Change - Gas
- Gravity Force Lab Guided Inquiry
- Net force
- Linear momentum
- Projectile Motion
- Projectile motion
- Projectile Motion
- Conservation of Mechanical Energy
- Vector Addition
- projectile motion
- PhET Lab Energy Skate Park 2
- Milk Trucks
- MRI lecture and homework
- Stern Gerlach clicker questions
- Types of Forces Investigation
- Speed of a Mechanical Wave
- Pushing Things Around
- Greased Lightning
- Fluid Experiments
- Projectile Motion - developing understanding.
- Projectile Motion
- The Ramp Mechanical Advantage and Efficiency
- Projectile Motion
- Energy Skate Park Lab Questions
- Worlds of Wonder
- Simple Pendulum
- Energy Chains
- Designing Experiments Using Masses & Springs
- Balancing Act Homework Activity 1 and 2
- projectile motion
- Projectile Motion (Lab Report)
- Mass/Spring Activity
- Radioactive Decay, Fission and Chain Reactions
- Movimiento en dos dimensiones: Caso del Proyectil (Two dimensions movement, projectile case).
- Experiencia Educativa Principio Arquimedes, Fuerza Boyante y Densidad (Learning experience: Archimedes principle, Buoyant force & Density).
- PhET Energy Forms and Changes Virtual Lab
- Projectile Motion Discovery
- Simple Pendulum Investigation Lesson Plan
- Energy Skate Park Lab (html5)
- Energy Simulation
- Ενεργειακά Διαγράμματα
- Bending Light Student Worksheet
- Crash!
- D.C Circuit Simulation 1
- Photoelectric Effect
- Exploring Fission (inquiry)
- Forces and Newton's Laws Review
- Applied Forces and Friction and a Review of Newton's 1st and 2nd Law
- Bose-Einstein Condensation Lesson
- The x and y's of Gas Properties
- Propiedades de las Representaciones de Funciones Lineales
- Atomic Interactions PhET Exploration - with Coulomb's Law application
- Blackbody Spectrum
- Conservation of Energy (Energy Skate Park)
- Current in DC Circuits
- Introduction to Fourier Analysis
- Projectile Motion Lab
- Kinetic Molecular Theory
- Investigating waves
- D.C Circuit Simulation 2 - Series and Parallel
- Lunar Lander/ Fun Game
- Electromagnetic Generation - Phet simulation
- Electromagnetic Induction
- Making STABLE Atoms Lab
- Projectile Motion Simulator
- Lesson plan
- Investigating critical angle and Total Internal Reflection
- Analisando o gráfico da função do 2º grau
- Photoelectric Effect
- Projectile Motion
- Quantitative Predictions of Projectile Motion
- Momentum Lab
- Projectile motion and horizontal component of its velocity
- Circuits lab manual with experimental& theoretical value comparison
- Interacciones atómicas Exploración PhET
- Group data generating activity to find Lac Operon effectiveness
- Moving Man I: Velocity vs. Time Graphs
- Moving Man II: Acceleration vs. Time
- Ohm's Law, Kirchhoff's Laws, Resistors in Parallel and Series Lab
- Radio Waves & Electromagnetic Fields Simulation Homework
- Microwaves Simulation Activity
- Microwaves Simulation Homework
- Introduction to Energy Model
- Circuit Lab 1 - Properties of Electric Circuits
- Coulomb's Law for Chemistry
- Photoelectric Effect
- Modeling Gravity
- Finding Wave Properties
- Moving Man Motion Graph Review
- Circuit Principles and Applications
- Projectile launch angle vs displacement
- Sound Simulation Homework II
- Addition and Resolution of Vectors
- Charges and Charged Objects Investigation
- Hooke's Law and Spring Constant with Energy: Regular Level
- Horizontal Projectile Motion
- Greenhouse effect activity
- Explorando sistemas de ecuaciones lineales
- Modeling Paradigm Lab- 2nd Law
- Vector Activity
- The Two-Slit Experiment
- Activity: Wave on a String
- Guided lab with instructions, screenshots and questions
- Resistivity in a wire
- Rubric for Simple Pendulums - What Affects the Period?
- MS and HS TEK to Sim Alignment
- Graphing Energy at the Skate Park
- Electric Field Hockey Post-Game Analysis
- El ruido y la contaminación acústica en mi ciudad
- Online Assignment 4 Ms & Ss