187 encamên lêgerînê ên têkîldarê Browser based

Şêwekar

• ناوک دروست بکە (HTML5)
• Gas Properties (HTML5)
• Membrane Channels
• Molecules and Light (HTML5)
• Molecule Shapes (HTML5)
• Quadrilateral (HTML5)
• Reactants, Products and Leftovers (HTML5)

Çalakî

• Online Assignment 4 Ms & Ss
• Pendulum Lab 2: Find g (Inquiry Based)
• Images from Convex Lenses (Inquiry Based)
• States of Matter (Inquiry based) Phase Change and Phase diagrams
• Modeling Friction (Inquiry Based)
• Moving Man (Inquiry Based)
• Sound: An Introduction (Inquiry Based)
• Wave Representations (Inquiry Based)
• Arithmetic Games (Inquiry Based)
• Magnets-Introduction (Inquiry Based)
• Waves on a String (Inquiry Based)
• Waves: Superposition (Inquiry Based)
• Wave unit (Inquiry Based)
• Reactions and Rates 1 Introduction to reactions (Inquiry Based)
• Ladybug Motion 2D Vector controls for circle/elliptical motion (inquiry based)
• Equation Grapher: Sketching Linear and Parabolic Graphs (Inquiry Based)
• pH Scale inquiry-based intro to acid-base
• Introduction to Static Electricity using Electric Field Hockey and Charges and Fields (Inquiry Based)
• Induction (high school version) (Inquiry Based)
• Salts and Solubility 2: Solubility (Inquiry Based)
• A Projectile Motion-Introduction (Inquiry Based)
• Fourier Making Waves Game (Inquiry Based)
• Induction (college homework version) (Inquiry Based)
• Reactions and Rates 4 lessons (Inquiry Based)
• Balloons and Bouyancy: An Introduction to Bouyancy - (Inquiry Based)
• Build an Molecule - Inquiry-based basics
• Wave Modeling and Wave addition (Inquiry Based)
• Atomic models homework (Inquiry based)
• Static Magnetic and Electric unit (Inquiry Based)
• Electric Energy and Capacitance demonstrations (Inquiry Based)
• Kinetic Molecular Theory- Introduction (inquiry-based)
• Inquiry Based Modeling Static Electricity
• Balancing Chemical Equations - Inquiry based Introduction
• Wave clicker questions (Inquiry Based)
• Algebra-based Physics Semester one lessons, clicker questions, and schedule in pdf (Inquiry Based)
• An investigation into Building Electric Circuits (Inquiry Based)
• Wave demonstrations: water, sound, light (Inquiry Based)
• Circuit Activity 2 Series & Parallel Circuits (Inquiry Based)
• Vector Addition 1: Introduction to vector math (Inquiry Based)
• Salts and Solubility 5: Designer Salts (Inquiry Based)
• Salts and Solubility 3: Solution Equilibrium and Ksp (Inquiry Based)
• Ladybug Revolution activity: Exploring rotational motion (Inquiry Based)
• Reactions and Rates 3: Introduction to Equilibrium (Inquiry Based)
• Ramp Activity 2: Calculating Net force on an incline (Inquiry Based)
• Circuit activity 3 Combination Circuits (Inquiry Based)
• Maze Game 2: Vector controls for circular motion (Inquiry Based)
• Vector Addition 2: Understanding Force equilibrium (Inquiry Based)
• Salts and Solubility Concept Questions for 5 activitites (Inquiry Based)
• Maze game: 2 activities in pdf (Inquiry Based)
• Circuit Construction Kit- series of three activitites (Inquiry Based)
• Circuit 1 Properties of Electric Circuits (Inquiry Based)
• Energy Skate Park Clicker Questions (Inquiry Based)
• Salts and Solubility 1: introduction to salts (Inquiry Based)
• Reactions and Rates College version for tab 3- kinetics (Inquiry Based)
• Reactions and Rates 2: Intro to Kinetics (inquiry based)
• Masses and Springs Homework Determine Unknowns (Inquiry Based)
• Conservation of Energy using Masses and Springs (Inquiry Based)
• Gases Understanding physical properties of gases (Inquiry Based)
• Conservation of Energy using Masses and Springs (homework version) (Inquiry Based)
• Build an Atom - Inquiry-based basics (homework version)
• Concept questions for Physics using PhET (Inquiry Based)
• Pendulum Lab 1: Intro to pendulum (Inquiry Based)
• Travoltage Lab
• Estimating the Length of Everyday Objects (Inquiry Based)
• Forces and Motion: Balanced and Unbalanced Forces, and Predicting Changes in Motion (Inquiry Based)
• Circuit activity 3 Combination Circuits using CCK only (Inquiry Based)
• Circuit 1 Properties of electric Circuits using only CCK(Inquiry Based)
• Circuit activity 2 Series and Parallel Circuits using only CCK (Inquiry Based)
• Maze Game 1: Using vector representations to move through a maze (Inquiry Based)
• Forces and Motion activity 1: Predicting speed and directions changes (Inquiry Based)
• Curve Fitting: How well does the curve describe the data? (Inquiry Based)
• Ramp Activity 1: Using free body diagrams for motion on an incline (Inquiry Based)
• PhET Collision Lab
• Energy Skate Park for Middle School(Inquiry Based)
• Introduction to Magnetic Fields (bar magnets and electromagnets) - Inquiry Based
• Force and Motion activity 2: Relating graphs and free body diagrams using Moving Man and Forces 1D (Inquiry Based)
• Conservation of Energy 4 Energy Skate Park: Calculations with Conservation of Mechanical Energy using time graphs (Inquiry Based)
• Projectile Motion - developing understanding.
• How Will This Isotope Decay?
• Sugar and Salt Solutions - Annotated Lecture Slides
• Circuit Lab 2 - Series and Parallel Circuits
• Kinetic Molecular theory review
• Reactions and Rates 4: Equilibrium LeChatlier
• Color Vision Remote Lab
• Electromagnetic Induction
• Lembar Kerja Siswa Berbasis Simulation Based Laboratory
• pH Learning Goals by developement team (Inquiry Based)
• Reactions and Rates: Learning Goals from the design team (Inquiry Based)
• Pendulum Lab Learning Goals by design team (Inquiry Based)
• Energy Skate Park Learning Goals for four activities (Inquiry Based)
• Testing Ideas from Classical and Quantum Physics
• EM wave analogy tutorial
• Introduction to Discharge Lamps
• How to make a laser
• Understanding the Photoelectric Effect
• Roller Coaster Physics Investigation
• Intro to Series and Parallel Circuits
• Refraction Investigation
• Gas Properties Gas Laws Quantitative
• Discovering patterns of current and voltage in series and parallel circuits
• Visualization and Visual Illusions SIM Homework
• Resistance in a Wire Remote Lab
• Waves Intro‌ Remote Lab ‌
• Activity in Mechanics (Collisions)
• Conservation of Energy 1: Introduction (qualitative approach)
• Forces and Motion: Tug O' War
• Exploring Data to Make Predictions
• Snell's law Lab - Inquiry based
• Initial Magnetism Investigation (Inquiry Based)
• Simple Inquiry-based Build an Atom Simulation Student worksheet
• Completing a circuit
• MRI lecture and homework
• Discovering Beer’s Law by a Simulation-based Laboratory
• Fluids Lab
• Intermolecular Forces and Molecules - Interactive Lecture Demonstration
• FARADAY'S LAW
• Density: How Does Density Relate to Mass &Volume and an Object's Interaction with Water?
• 3 Activities for Kepler's Laws of Planetary Motion
• Coulumb's Law Activity
• Relationship between electricity and magnetism
• Determination of Gravitational Acceleration
• Series and Parallel Circuits
• Exploring Fission (inquiry)
• Circuits 3 Day Unit
• Gene Regulation Guided Simulation
• Exploring the Behavior of Gases
• A PhET-Based Laboratory Activity in Teaching Direct Current Circuits (Guided Inquiry with Formative Assessment)
• Energy Skate Park: Basics
• Introduction to Electrostatics
• Phet Solar System Simulation Lab
• Charges and Fields Lab
• Concentration Lab with Molarity Calculations
• Projectile Motion Exploration
• Investigating waves
• Gravity Force Lab
• States of Matte Inquiry
• KE and PE with the pendulum, Student
• Exploring Rectangles (area and perimeter)
• Exploring parallel and perpendicular lines
• Forces and Motion activity questions
• Greenhouse effect activity
• PhET Sugar and Salt Inquiry Questions
• Wave Properties and Interactions Lab Manual
• Factors Affecting The Frequency of A simple Harmonic Oscillator
• PhET Lab Energy Skate Park 2
• Lab: Gas Laws Simulation
• Blackbody Spectrum
• Isotopes
• Conservation of Energy (Energy Skate Park)
• Current in DC Circuits
• Modeling Isotopes
• Moving Man (Motion Intro)
• Batteries
• Investigating Glaciers
• PhET Atom Simulator
• Circuit Lab 1 - Properties of Electric Circuits
• Introduction to Fourier Analysis
• Population Ecology: Predator/Prey Relationships
• Discover a Spring "Stretching Law" (Hooke
• The Dichotomous Key
• Light and Atoms
• Spectra of Light
• Ripple While You Work
• Exploring Vectors and Projectile Motion
• How are products and factors related?
• Proving Newton's Second Law
• Equilibrium and Le Chatelier's Principle
• Lab - Natural Selection
• Finding Planck's Constant
• NUMBER LINE (DISTANCE)
• Greased Lightning
• Gas Laws, Quantitative, Boyle–Mariotte law
• Gas Laws, Quantitative, Gay-Lussac's law
• Gas Laws, Quantitative, Charles' law
• Remote Learning Molecule Shapes
• Projectile Motion
• Opladen door wrijving, influentie, geleiders en isolatoren - Google Quiz - guided inquiry
• Modelling Motion
• Unusual cases of oscillation
• Computer Simulations as a Tool to Assist Teaching Basics of Electromagnetism (Simulações Computacionais Como Ferramenta Auxiliar ao Ensino de Conceitos Básicos de Eletromagnetismo)