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アクティビティ
- Equilibrium Inquiry and Experiment Activity
- Reactions and Rates 3: Introduction to Equilibrium (Inquiry Based)
- Pendulum investigation for Middle School
- Designing Experiments Using Masses & Springs
- Stern Gerlach clicker questions
- Equilibrium and Le Chatelier's Principle
- Exploring Equilibrium
- Experimental Design with Forces
- Reactions and Rates 4 lessons (Inquiry Based)
- Salts and Solubility 3: Solution Equilibrium and Ksp (Inquiry Based)
- Circuit design challenge
- Inquiry Equilibrium activity
- Gravity and Orbits Experimental Design Research Project
- Balancing Torques and Equilibrium
- Vector Addition 2: Understanding Force equilibrium (Inquiry Based)
- Reactions and Rates: Learning Goals from the design team (Inquiry Based)
- Reactions and Rates 4: Equilibrium LeChatlier
- Capacitor Lab: Inquiry into Capacitor Design
- equilibrium of forces
- Equilibrium Conditions
- Capacitor Design Remote Lab
- Experimental Design: Projectile Motion!
- Exploring Equilibrium 2 (Le Chatelier's Principle)
- Investigation Into Static Equilibrium
- Salts and Solubility 4: Using Q and LeChateliers Principle
- pH Scale inquiry-based intro to acid-base
- Rotational Equilibrium Simulation HW
- Projectile motion experiment
- Gravity Force Investigation (PreAP)
- Ramp: Forces and Motion Investigation
- Temperature and Energy NGSS aligned
- Waves Intro Remote Lab
- Factors affecting the period of a simple pendulum
- Molecule Design Challenge Pre-Activity
- Forces and Motion: Tug O' War
- Forces at equilibrium
- Using Unit Rate to Understand Slope
- Waves Interference Remote Labs
- Waves Intro | Remote Lab
- Experiment to determine relationship between wavelength, frequency and speed
- Strong and Weak Acids
- Balancing Act Homework Activity 1 and 2
- Salts and Solubility 5: Designer Salts (Inquiry Based)
- Salts and Solubility Concept Questions for 5 activitites (Inquiry Based)
- Exothermic vs. Endothermic Reactions
- Lens Equation Experiment using Excel
- Electrical circuits in virtual laboratory
- Spinometer
- Friction Experiment
- Forces at Equlibrium
- Projectile Motion
- Projectile Motion
- LeChateilier's Principle - Concentration
- Chaos Physics
- Rutherford Experiment
- Lab Experiment
- Visualization and Visual Illusions SIM Homework
- Spring Mass Experiment
- Pendulum Lab Learning Goals by design team (Inquiry Based)
- Experimental Design Practice
- Projectile motion Experiment
- Gravity Force Lab : calculations
- PHET Charges and Fields Activity Part 1
- Vector Addition Experiment
- Projectile Motion Experiment Abdulla
- Capacitor Lab: Basics: Inquiry into Capacitor Design
- Wave Properties and Interactions Lab Manual
- The Two-Slit Experiment
- Gas Properties Gas Laws Quantitative
- Energy Skate Park-NGSS aligned HS
- Pendulum Lab 1: Intro to pendulum (Inquiry Based)
- Elementary Pendulum Lab 4th-5th
- Forces and Motion
- Pendulum Lab 2: Find g (Inquiry Based)
- Horizontal Projectile Motion Experiment
- Photoelectric Effect Virtual Experiment
- Photoelectric Virtual Experiment
- Rutherford's Gold Foil Experiment
- vectors adding experiment
- projectile motion experiment
- Projectile Motion Experiment
- Projectile Motion - Lab Experiment
- Introduction to Magnetic Fields (bar magnets and electromagnets) - Inquiry Based
- Introduction to Refraction
- VIRTUAL EXP. - HOOKE LAW
- Projectile Motion in Sports
- Projectile Motion - Physics 1 lab experiment
- Intermolecular Forces and Molecules - Interactive Lecture Demonstration
- Colors, Bunnies and Wolves: does the strongest survive?
- Spinometer
- Acid-Base Discovery (ICP/Physical Science Level)
- vector addition
- Faraday Experiment Self Directed Learning
- Greenhouse gases - sense making by observing photons
- Experiments with Bar Magnets and Electromagnets
- Projectile Motion
- Understanding Rates of Reactions
- Roller Coaster Physics Investigation
- Sound: An Introduction (Inquiry Based)
- Ramp Activity 2: Calculating Net force on an incline (Inquiry Based)
- Ramp Activity 1: Using free body diagrams for motion on an incline (Inquiry Based)
- Capacitor_Lab_Basics _html_Remote_lab
- Conservation of Energy 1: Introduction (qualitative approach)
- Resistance in a Wire
- Lever Lab
- Masses and Springs
- Earth, Moon & Sun Simulation
- Forța elastică –Legea lui Hooke
- Exploring magnets, pickup coils and generators
- Le Chatelier's Principle Demos
- Science Teacher
- Davisson Germer lecture and homework
- Gravity Force Investigation (AP)
- Reactions and Rates College version for tab 3- kinetics (Inquiry Based)
- Day 3: Conductors and Insulators
- pH Learning Goals by developement team (Inquiry Based)
- Energy Skate Park Basics: Mechanical Energy Lab
- Video: Self-paced learning - Moving Man Simulation (Motion Graphs)
- Thermal Energy Flow PhET Lab
- projectile motion
- Understanding the Photoelectric Effect
- Wave Particle Duality
- Probability and Randomness Interactive Lecture
- vectors
- Radioactivity
- AC Circuits
- Making Sense of Slope
- Thermodynamics of Skating
- Action Potential Simulation - Guided Inquiry Activity
- Projectile Motion Worksheet
- Refractia luminii
- Online Assignment 4 Ms & Ss
- Comparing the properties of different materials
- Collecting and analyzing density data
- Heat or temperature?
- Heat or temperature
- The Greenhouse Effect Lab
- John Travoltage
- Friction
- Hooke's law
- Concentration PhET Simulation Lab
- Colission Lab colorado
- Projectile Motion
- Heat Capacity Land and Ocean
- Float or Sink? An essay on the density of materials
- Exploring the density of mysterious objects
- Phet Forces and Motion Basics: Friction lab
- Energy Transformations
- Energy Skate Park Basics Energy Exploration
- Introduction to Forces in 1-D
- Projectile Motion
- Projectile motion
- Projectile Motion Formal Lab Development and Report
- Projectile motion
- Total Internal Reflection
- projectile motion
- Boyle's Law
- Waves on a string
- conservation of mechanical energy
- Friction
- https://youtu.be/B4_UEJzch3o
- Fee Fall
- Projectile Motion
- Horizontal Projectile
- Conservation of Linear Momentum
- Projectile Motion
- Conservation of linear momentum
- Friction lab report
- vector addition
- Conservation Of Mechanical Energy
- Conservation of Mechanical Energy
- Projectile motion – Complementary Angles and Range
- simple pendulum
- Projectile Motion
- Wave Investigation
- Opdracht- atoommodellen
- Horizontal Projectile Motion
- Rutherford Goil Foil vs. Other Metals
- projectile motion
- collision in one and two dimensions
- Conservation Of Mechanical Energy
- Factors Affecting The Frequency of A simple Harmonic Oscillator
- pendulum exp
- Vectors Addition
- motion along straight line with constant speed
- PhET Lab Energy Skate Park 2
- Vectors.
- Photoelectric Effect
- Conservation of Linear Momentum
- motion along straight line with constant acceleration
- Projectile motion
- Vectors for Physics 1
- Hooke's Law and The Spring Constant
- Projectile Motion
- Vector
- projectile motion
- Projectile motion, range, time, velocity
- Energy Skate Park Lab Questions
- Teaching pendulum experimental in Persian
- Vectors Addition
- Hooke's law
- Energy Skate Park Analysis Lab
- Polarity Lab
- Spring Oscillators Activity
- How do PhET simulations fit in my middle school program?
- Spring Simulation - Identifying Variables & Asking Questions
- Newton's Second Law of Motion
- DC Measuring Devices
- Ohm's Law
- reflection refraction and total internal reflection
- Kirchhoff's Law
- Projectile Motion Worksheet
- projectile motion
- Ohm's Law
- Quantum Wave Interference, PhET, Worksheet, High Intensity, Problems
- Projectile Motion Scientific Enquiry
- Modeling Paradigm Lab- 2nd Law
- MS and HS TEK to Sim Alignment
- Intro to Circuits
- Waves on a String Discovery Activity
- Circuits lab manual with experimental& theoretical value comparison
- Discovering Acids and Bases
- Hooke's law
- Hooke's Law and the Spring Constant
- Projectile Motion
- Finding Unit Rates Using Addition, Subtraction, Multiplication, and Division
- Modelling Motion
- Matching Fractions
- Computer Simulations as a Tool to Assist Teaching Basics of Electromagnetism (Simulações Computacionais Como Ferramenta Auxiliar ao Ensino de Conceitos Básicos de Eletromagnetismo)