240 Résultats de recherche correspondants remote learning

Activités

• Introduction to Circuits Remote Lab
• Resistance in a Wire Remote Lab
• Build an Atom Game Remote Lab
• Ohm's Law Remote Lab
• pH Scale Basics Remote Lab1
• Color Vision Remote Lab
• Capacitor_Lab_Basics _html_Remote_lab
• Inquiry Based Modeling Static Electricity
• Balancing Act Remote Lab
• Waves Interference Remote Labs
• Energy Skate Park Basics: Mechanical Energy Lab
• BendingLight_Remote_Lab
• Coulomb Law Remote Lab
• Games Remote Lesson ideas
• Waves Intro‌ Remote Lab ‌
• Balancing Chemical Equations - Inquiry based Introduction
• Waves on a String (Inquiry Based)
• Isotopes & Atomic Mass-Inquiry Activity
• Stoichiometry for Remote Learning
• Charges and Fields Remote Lab Introduction to Static Electricity
• Like Terms and How to Combine Them
• Ohm's Law Lab - Virtual
• Gas Simulation Remote Instruction
• Remote Learning Molecule Shapes
• NGSS Eating and Exercise Activity HS-LS1-2
• A Projectile Motion-Introduction (Inquiry Based)
• Conservation of Energy using Masses and Springs (homework version) (Inquiry Based)
• Fluid Pressure - an inquiry introduction
• Concentration PhET – Understanding Molarity and Parameters affecting Molarity
• Coulomb's Law Data Collection and Analysis (remote online learning)
• Capacitor Design Remote Lab
• Waves Intro | Remote Lab
• Build an Atom: Introduction
• Beer's Law Lab - Guided Inquiry Activity
• pH Scale inquiry-based intro to acid-base
• Adding Negations
• Balloons and Static Electricity | Remote Lab
• Energy Skate Park Basics | Remote Lab
• pH Scale Basics | Remote Lab
• What is an atom?
• Super Basic Gas Law
• Sound Virtual Practical Activity
• Video: Self-paced learning on Electrical Equipotential Lines
• Energy Skate Park Learning Goals for four activities (Inquiry Based)
• pH Learning Goals by developement team (Inquiry Based)
• Instruction set in Photoelectric Expt.
• Reactions and Rates: Learning Goals from the design team (Inquiry Based)
• Exploring Gravity
• Modeling Friction (Inquiry Based)
• LEARNING AND SIMULATING PROJECTILE MOTION
• Pendulum Lab Learning Goals by design team (Inquiry Based)
• Beer's Law: An AP Chemistry Activity
• Projectile Motion - Physics 1 lab experiment
• Mechanical energy lab - Remote
• Simple Series and Parallel Circuits Lab
• Faraday Experiment Self Directed Learning
• Wave on a String Student Learning Guide
• Light and Waves E-Learning Activity
• Video: Self-paced learning on Capacitor
• PhET: Color Vision | Remote Lab
• Membrane Channels: inquiry into cellular diffusion
• Conductivity: an inquiry activity (also uses other sims)
• Gene Machine: Lac Operon -an inquiry lesson
• Pendulum Lab 2: Find g (Inquiry Based)
• Simple Harmonic Motion Virtual Modeling Lab PhET
• ORGANIC CHEMISTRY Chemical Reactions of Alkanes and Alkenes
• Kies een breuk - werkblad
• Kies je breuk
• De wet van Ohm
• Wave on a String Independent Student Learning Guide
• Students' Learning Activity (Fluid Pressure & Flow)
• Video: Self-paced learning on Newton's Second Law
• Video: Self-paced learning on Newton's First Law
• Video: Self-paced learning on Boyle's Law
• Video: Self-paced learning on Energy Transformation
• Capacitor and RC Circuit Lab
• Investigation of a Solution’s Color (Qualitative) - Guided Inquiry Activity
• Maze Game 1: Using vector representations to move through a maze (Inquiry Based)
• Arithmetic Games (Inquiry Based)
• Maze Game 2: Vector controls for circular motion (Inquiry Based)
• Electric Energy and Capacitance demonstrations (Inquiry Based)
• Build a Molecule
• Balanceren
• Elektriciteit
• Wave Modeling and Wave addition (Inquiry Based)
• Video: Self-paced learning - Moving Man Simulation (Motion Graphs)
• Investigating Climate Change at the Macroscopic and Microscopic Level
• Testing Predictions for Projectile Motion
• Ladybug Motion 2D Vector controls for circle/elliptical motion (inquiry based)
• Gravity Force Lab : calculations
• Molecules and Light
• Balancing Chemical Equations - Guided Inquiry Activity
• Molecule Polarity
• EM wave analogy tutorial
• Conservation of Energy 1: Introduction (qualitative approach)
• Simple Inquiry-based Build an Atom Simulation Student worksheet
• Isotopes and Atomic Mass - Guided Inquiry Activity
• Electrolyte and Non-electrolyte Solutions - Interactive Lecture Demonstration
• Molecule Polarity - Guided Inquiry Activity
• Balloons and Static Electricity for Middle School
• Gravity Lab- intro
• Circuit activity 3 Combination Circuits using CCK only (Inquiry Based)
• Vector Addition 1: Introduction to vector math (Inquiry Based)
• Ladybug Revolution activity: Exploring rotational motion (Inquiry Based)
• Introduction to Static Electricity using Electric Field Hockey and Charges and Fields (Inquiry Based)
• Gas Properties-Inquiry Middle School
• Capacitor Lab: Inquiry into Capacitor Design
• Alpha Decay investigations
• Basic Electricity: short inquiry activities includes ideas for several sims
• Neuron - an inquiry lesson idea
• Masses and Springs Homework Determine Unknowns (Inquiry Based)
• Conservation of Energy using Masses and Springs (Inquiry Based)
• Reactions and Rates 4: Equilibrium LeChatlier
• Induction (college homework version) (Inquiry Based)
• Equation Grapher: Sketching Linear and Parabolic Graphs (Inquiry Based)
• Experiencia Educativa Principio Arquimedes, Fuerza Boyante y Densidad (Learning experience: Archimedes principle, Buoyant force & Density).
• Video: Self-paced learning on Energy Skate Park (GPE, KE and Work done)
• Molecule Shapes - Guided-Inquiry Activity
• Investigation of a Solution’s Color (Qualitative and Quantitative) - Guided Inquiry Activity
• Concentration - Interactive Lecture Demonstration
• Induction (high school version) (Inquiry Based)
• Molecule Shapes- inquiry
• Beta Decay Investigations
• Radioactive Dating Game inquiry
• Moving Man (Inquiry Based)
• Circuit Activity 2 Series & Parallel Circuits (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)
• Sound: An Introduction (Inquiry Based)
• Salts and Solubility 5: Designer Salts (Inquiry Based)
• Salts and Solubility 2: Solubility (Inquiry Based)
• Reactions and Rates 3: Introduction to Equilibrium (Inquiry Based)
• Ramp Activity 2: Calculating Net force on an incline (Inquiry Based)
• Balloons and Bouyancy: An Introduction to Bouyancy - (Inquiry Based)
• Sound_Inquiry for Middle School
• Forces and Motion activity 1: Predicting speed and directions changes (Inquiry Based)
• Curve Fitting: How well does the curve describe the data? (Inquiry Based)
• Circuit 1 Properties of Electric Circuits (Inquiry Based)
• Molecules and Light-inquiry for high school
• Build an Molecule - Inquiry-based basics
• Sugar and Salt Solutions: intro to bonding
• Reactions and Rates 1 Introduction to reactions (Inquiry Based)
• Gas Properties Gas Laws Quantitative
• Magnets-Introduction (Inquiry Based)
• Build an Atom
• Ramp Activity 1: Using free body diagrams for motion on an incline (Inquiry Based)
• Acid Base Solutions - Concentration and Strength
• Reactants, Products, and Leftovers Activity 2: Limiting Reactants in Chemical Reactions
• Molarity and Dilution
• Conservation of Energy 4 Energy Skate Park: Calculations with Conservation of Mechanical Energy using time graphs (Inquiry Based)
• Energy Skate Park - Concept Questions Compendium
• Build a Molecule - Molecular Formulas and Coefficients
• Waves: Superposition (Inquiry Based)
• Images from Convex Lenses (Inquiry Based)
• Pendulum Lab 1: Intro to pendulum (Inquiry Based)
• Organize it!
• Pendulum Inquiry and Lab Report
• Build an Atom - Guided-Inquiry Activity
• Introduction to Oscillations
• Reactants, Products, and Leftovers Review Activity: Limiting Reactants in Chemical Reactions Review
• Force and Motion activity 2: Relating graphs and free body diagrams using Moving Man and Forces 1D (Inquiry Based)
• Salts and Solubility 3: Solution Equilibrium and Ksp (Inquiry Based)
• Resonance: Upper-division college
• Molecule Polarity- Inquiry and Applications
• Fraction Matcher Scaffolding Lesson
• Conservation of Energy 2: graphs analysis
• pH Scale
• Sugar and Salt Solutions - Annotated Lecture Slides
• Designing Experiments Using Masses & Springs
• Salts and Solubility 4: Using Q and LeChateliers Principle
• Greenhouse gases - sense making by observing photons
• Solutions Unit Sample
• Salts and Solubility 1: introduction to salts (Inquiry Based)
• Reactions and Rates 2: Intro to Kinetics (inquiry based)
• Intermolecular Forces and States of Matter - Interactive Lecture Demonstration
• Exploring Factoring as Undoing the Distributive Property
• Gases Understanding physical properties of gases (Inquiry Based)
• Density: How Does Density Relate to Mass &Volume and an Object's Interaction with Water?
• Chaos Physics
• Balance in the up-and-down
• Electric Field Lab
• Molecules and Light - Guided Inquiry Activity
• An investigation into Building Electric Circuits (Inquiry Based)
• Energy Skater -- Introduction to Mechanical Energy Conservation
• Reflectioin and spherical mirror
• Thermal Expansion
• The physics of the triple jump
• Introduction to vectors
• Estimating the Length of Everyday Objects (Inquiry Based)
• concentrazione e saturazione
• Introduction to Electrostatics
• Math facts - Using the Multiplication Chart
• Naming Fractions
• Molecule Shapes Advanced
• Gravity Lab
• Exploring EM Forces
• Inputs and Outputs in Unit Operations
• Alignment of PhET sims with NGSS
• Understanding Rates of Reactions
• Demonstartion of waves on a string
• Hooke's Law investigation including multi-spring systems and Energy
• Simple WS with Energy Forms & Changes pHet
• Visualizing a Mixture
• Energy Skate Park Lab Questions
• Recognizing Patterns in Covalent Bonding
• PhET Interactive Lab on pH
• Discover a Spring "Stretching Law" (Hooke
• Finding Wave Properties
• Measurement of wave parameters
• Electric Field and Potential Lab
• Elementary Pendulum Lab 4th-5th
• Projectile Motion
• Using the Gases Intro PhET Simulation: Concept Development for Understanding Gas Laws and the Variable Changes Associated with Them
• NUMBER LINE (DISTANCE)
• Moving Man with Position and Velocity graphs
• The "Lifelike" Moving Man: Variation in motion graphs
• Energy Analysis of a Mass Oscillating on a Spring
• Hooke's Law (Springs)
• Introduction to Current, Voltage, and Resistance
• Wave Interference in 2D
• Gas Laws, Quantitative, Boyle–Mariotte law
• Gas Laws, Quantitative, Gay-Lussac's law
• Gas Laws, Quantitative, Charles' law
• Wave Interference- Waves (Sound and Light)
• Skate Park Phet- Science 8 and ACC Science 8
• Energy Simulation Lab - Skate Park
• Exploring Area and Perimeter
• Visible Spectrophotometry of Nickel (II) Chloride
• What Type of Light Bulb Should I buy for my Grandma?
• Why do Icebergs Float?
• Projectile Motion Worksheet
• Harmonic oscillator
• Resistivity in a wire
• Online Assignment 4 Ms & Ss
• Graphing Energy at the Skate Park
• Introduction to Waves: Liquid Matter, Sound, and Light
• Capacitor Lab: Basics: Inquiry into Capacitor Design
• The sense and nature of electric current
• Intro to Waves I: Basics of waves in liquids
• Computer Simulations as a Tool to Assist Teaching Basics of Electromagnetism (Simulações Computacionais Como Ferramenta Auxiliar ao Ensino de Conceitos Básicos de Eletromagnetismo)