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Simulazioni

• Grafici di funzioni derivate e integrali (HTML5)
• Forze e moto: le basi (HTML5)
• Leggi di Keplero (HTML5)
• Molecole e luce (HTML5)

Attività

• Forces and Motion Lesson
• Video: Self-paced learning on Newton's First Law
• Application of The First Law of Thermodynamics
• Forces and Motion with Friction Group Activity
• Buoyancy: How Does Buoyant Force Act on Objects in a Fluid?
• Collision Lab : Introduction to One Dimension collisions
• Invention Lab_Wave Interference
• Shape, Center, and Spread
• Forces and Newton's Laws Review
• Forces & Motion: Basics HTML5 - Part 2 (Friction)
• Waves: Superposition (Inquiry Based)
• Molecule Polarity
• Salts and Solubility 1: introduction to salts (Inquiry Based)
• Vector Addition 2: Understanding Force equilibrium (Inquiry Based)
• Algebra-based Physics Semester one lessons, clicker questions, and schedule in pdf (Inquiry Based)
• Choral counting
• Choral Counting
• Gravity Lab- intro
• Patterns and Ratios
• Balancing Act Homework Activity 1 and 2
• Discovering Newton's Second Law
• Fluid Pressure - an inquiry introduction
• Salts and Solubility 5: Designer Salts (Inquiry Based)
• Forces and Motion: Finding the Mass of a Car
• Conservation of Energy 1: Introduction (qualitative approach)
• Ramp Activity 1: Using free body diagrams for motion on an incline (Inquiry Based)
• Ramp Activity 2: Calculating Net force on an incline (Inquiry Based)
• Salts and Solubility 4: Using Q and LeChateliers Principle
• Circuit activity 3 Combination Circuits (Inquiry Based)
• Comparing Unit Rates
• Displaying, Analyzing, and Summarizing Data
• Salts and Solubility 3: Solution Equilibrium and Ksp (Inquiry Based)
• Investigation of sugar and salt solutions
• Circuit 1 Properties of Electric Circuits (Inquiry Based)
• Conservation of Energy 2: graphs analysis
• Forces and Motion: Balanced and Unbalanced Forces, and Predicting Changes in Motion (Inquiry Based)
• Acid-Base Macro Particulate Symbolic
• Equation Grapher: Sketching Linear and Parabolic Graphs (Inquiry Based)
• Hooke's Law (Hands-on & PhET)
• What is an atom?
• Lab- Wave Simulation
• Testing Ideas from Classical and Quantum Physics
• Collision Lab
• Exploring Equilibrium 2 (Le Chatelier's Principle)
• An investigation into Building Electric Circuits (Inquiry Based)
• Circuits 3 Day Unit
• Walker Lab with Moving Man sim
• Investigating a radioactive decay
• Motion Labs using MOVING MAN
• Introduction to Electrostatics
• Waves on a string
• KE and PE with the pendulum, Student
• Kepler's Laws and Orbits
• Circuit Simulator I
• The Greenhouse Effect
• Electric Field Hockey Post Activity
• Introduction to Current and Kirchhoff's Junction Rule
• Moving Man (Motion Intro)
• Using an Area Model to Multiply
• Modeling Isotopes
• Introduction to Refraction
• Combined Series and Parallel Circuits
• Maze Game
• Wave Interference Lab: Path Difference impact on Constructive and Destructive Interference
• Finding Wave Properties
• Using the Atomic Interactions PhET Simulation: Concept Development for Understanding Energy Changes Associated with Bond Forming and Bond Breaking Events
• Reflection and Interference of Waves
• Gas Properties and Balloons & Buoyancy Simulations Homework
• Using the Radioactive Dating simulations
• Projectile Motion: Gravity & Air Resistance
• vectors
• Projectile Motion Experiment Abdulla
• The Peninsula of Nuclear Stability
• Exploring Vectors and Projectile Motion
• Projectile launch angle vs displacement
• Motion and Moving Man Simulation Homework
• Projectile Motion Worksheet
• Introduction to the Gas Laws using PhET simulations
• energy systems phet worksheet
• Using the Coulomb’s Law PhET Simulation: Concept Development for Understanding Electrostatic Forces
• Using the Molecule Polarity PhET Simulation: Concept Development for Understanding Molecular Dipoles
• Bunny Population Growth
• Predicting the impact point in horizontal launch simulations
• Balancing Chemical Equations
• Introduction to the gas laws
• 2.6 APES: Adaptation & Natural Selection
• Investigating critical angle and Total Internal Reflection
• Introduction to Current, Voltage, and Resistance
• Natural Selection - 7.2 AP BIOLOGY
• Hooke's law
• Using the Molecular Shapes PhET Simulation: Concept Development for Understanding Molecular Geometry and Shape
• circuits in parallel and in series
• Harmonic oscillator
• Direct Instructions for PhET Balancing Equations
• Moving Man with Position and Velocity graphs
• CD's, DVD's & Optical Commmunication: Binary Coding and Diffraction Errors
• Guided Discovery (Chinese/English) for Freshman University Physics: 2. Newtonian Mechanics
• The sense and nature of electric current
• Guided Discovery (Chinese/English) for Freshman University Physics: 3. Energy & Momentum
• Quest for the Coulomb Cup
• Simple Inquiry-based Build an Atom Simulation Student worksheet
• Guided Discovery (Chinese/English) for Freshman University Physics: 6. Wave Interference
• Guided Discovery (Chinese/English) for Freshman University Physics: 4. Rotations & Oscillations
• Guided Discovery (Chinese/English) for Freshman University Physics: 5. Introduction to Waves
• Guided Discovery (Chinese/English) for Freshman University Physics: 1. Kinematics
• Intro to Circuits
• Intro to Waves I: Basics of waves in liquids
• Exploring the pH Scale
• Computer Simulations as a Tool to Assist Teaching Basics of Electromagnetism (Simulações Computacionais Como Ferramenta Auxiliar ao Ensino de Conceitos Básicos de Eletromagnetismo)