412 La ricerca ha trovato high school chemistry

Simulazioni

• Alimentazione ed esercizio
• Area giochi Proporzioni (HTML5)
• Aritmetica (HTML5)
• Arriva a 10 (HTML5)
• Attrito (HTML5)
• Bilanciamento di reazioni chimiche (HTML5)
• CampoE
• Canali di membrana
• Carica radiante
• Cariche e campi elettrici (HTML5)
• Centro e variabilità (HTML5)
• Circuito elettrico
• Circuito Pila - Resistenza
• Concentrazione (HTML5)
• Condensatori
• Conducibilità
• Confronto di frazioni (HTML5)
• Confronto di numeri (HTML5)
• Coppie di numeri (HTML5)
• Costruisci una frazione (HTML5)
• Costruisci una funzione (HTML5)
• Costruisci una funzione: introduzione (HTML5)
• Costruisci una Molecola (HTML5)
• Costruisci un atomo (HTML5)
• Costruisci un nucleo (HTML5)
• Curve Fitting (HTML5)
• d.d.p. in una Pila
• Davisson-Germer: Diffrazione degli elettroni
• Decadimento alfa (α)
• Decadimento beta (ß)
• Densità (HTML5)
• Deviazione della luce (HTML5)
• Diffusione dei gas (HTML5)
• Diffusione di Rutherford (HTML5)
• Disegna un'area (HTML5)
• Disegna una curva
• Distribuzione campionata di proiettili (HTML5)
• Doppia buca di potenziale e .....
• Effetto serra (HTML5)
• Effetto Serra
• Elettricità statica e palloni (HTML5)
• Elettricità statica
• Energia con lo Skateboard: concetti base (HTML5)
• Esperimento di Stern-Gerlach
• Esplora le equazioni (HTML5)
• Esplora le equazioni a due variabili (HTML5)
• Esplora le uguaglianze: introduzione (HTML5)
• Espressione genica: fondamenti (HTML5)
• Espressione genica: fondamenti
• Espressioni (HTML5)
• Fissione Nucleare
• Forme e trasformazioni di energia (HTML5)
• Forme molecolari: concetti base (HTML5)
• Forze e moto
• Forze e moto: le basi (HTML5)
• Forze in una dimensione
• Fourier: Creare onde (HTML5)
• Fourier: Costruire le onde
• Frazioni: Equivalenza (HTML5)
• Frazioni: Introduzione (HTML5)
• Frazioni: Numeri misti (HTML5)
• Galleggiabilità: introduzione (HTML5)
• Galleggiamento (HTML5)
• Generatore CA (HTML5)
• Ghiacciai
• Grafici di funzioni derivate e integrali (HTML5)
• Grafici lineari (HTML5)
• Gravità e orbite (HTML5)
• Hockey Elettrico
• Il gioco dei numeri (HTML5)
• Il gioco della Datazione radiometrica
• Il giro della trigonometria (HTML5)
• Il labirinto
• Il mio Sistema Solare (HTML5)
• In pressione (HTML5)
• Interazioni atomiche (HTML5)
• Interferenza delle onde quantiche
• Interferenza tra onde (HTML5)
• Introduzione ai gas (HTML5)
• Isotopi e massa atomica (HTML5)
• John TraVolt (HTML5)
• John TraVolt
• Kit Costruzione Circuiti: Corrente Alternata (HTML5)
• Kit Costruzione Circuiti: Laboratorio Virtuale (HTML5)
• Kit Creazione Circuiti: Corrente Continua (HTML5)
• Kit creazione circuiti: corrente continua - Laboratorio virtuale (HTML5)
• L'Effetto Fotoelettrico
• L'uomo mobile
• Laboratorio condensatori: introduzione (HTML5)
• Laboratorio dati Proiettili (HTML5)
• Laboratorio Elettromagnetico di Faraday (HTML5)
• Laboratorio elettromagnetico di Faraday
• Laboratorio Gravità (HTML5)
• Laboratorio Gravità: Introduzione (HTML5)
• Laboratorio Pendoli (HTML5)
• Laboratorio sulla legge di Beer (HTML5)
• Laboratorio Urti (HTML5)
• Lancio della moneta quantistica (HTML5)
• Laser
• Legge di Coulomb (HTML5)
• Legge di Faraday (HTML5)
• Legge di Hooke (HTML5)
• Legge di Ohm (HTML5)
• Leggi di Keplero (HTML5)
• Leve (HTML5)
• Linea dei numeri: distanza (HTML5)
• Luci al neon e altre lampade a scarica
• Macchina del Gene: L'Operone del Lattosio
• Magnete e bussola (HTML5)
• Magneti ed Elettromagneti (HTML5)
• Masse e molle (HTML5)
• Masse e molle
• Masse e molle: introduzione (HTML5)
• Media: Distribuzione e Bilanciamento (HTML5)
• Metodo dei minimi quadrati (HTML5)
• MIcroonde
• Misurazione quantistica (HTML5)
• Modelli dell'atomo di Idrogeno (HTML5)
• Modelli dell'atomo di Idrogeno
• Modelli molecolari (HTML5)
• Molarità (HTML5)
• Molecole e luce (HTML5)
• Momento meccanico
• Moto del proiettile (HTML5)
• Moto piano
• Moto piano della Coccinella
• Navicella lunare
• Neurone (HTML5)
• Onde: Introduzione (HTML5)
• Onde Radio
• Onde sonore
• Onde su una corda (HTML5)
• Ottica geometrica (HTML5)
• Ottica geometrica: elementi base (HTML5)
• Palloni e galleggiamento
• Piano inclinato: Forze e Moto
• Polarità molecolare (HTML5)
• Polarità molecolare
• Pressione in un fluido e portata
• Probabilità (HTML5)
• Proprietà dei gas (HTML5)
• Quadrilateri (HTML5)
• La rampa
• Rapporti e proporzioni (HTML5)
• Rappresentazione di funzioni Quadratiche (HTML5)
• Rappresentazione grafica della moltiplicazione (HTML5)
• Rappresentazione grafica della moltiplicazione: introduzione (HTML5)
• Rappresentazione grafica della moltiplicazione in algebra (HTML5)
• Rappresentazione grafica del prodotto di numeri decimali (HTML5)
• Rappresentazione Pendenza-Intercetta (HTML5)
• Reagenti, prodotti e residui (HTML5)
• Reazioni e velocità di reazione
• Reazioni reversibili
• Resistenza in un cavo elettrico (HTML5)
• Retta dei numeri: operazioni (HTML5)
• Retta orientata: numeri interi (HTML5)
• Risonanza
• RMI semplificata
• Rotazione della coccinella
• Sali & Solubilità
• Scala del pH (HTML5)
• Scala del pH: introduzione (HTML5)
• Selezione Naturale (HTML5)
• Semiconduttori
• Skate Park Energia (HTML5)
• Soluzioni acido-base (HTML5)
• Soluzioni di zucchero e sale
• Somma vettoriale (HTML5)
• Somma vettoriale: equazioni (HTML5)
• Spettro del Corpo Nero (HTML5)
• Stati della materia (HTML5)
• Stati della materia: introduzione (HTML5)
• Stati legati
• Stima
• Tettonica a placche
• Unità derivate (HTML5)
• Visione dei Colori (HTML5)
• Optical Quantum Control

Attività

• Using PhET in High School Chemistry- all my activities in pdf
• Reaction Rates
• Sound_Inquiry for Middle School
• Induction (high school version) (Inquiry Based)
• Molecules and Light-inquiry for high school
• Chemistry Theater
• High School Chemistry 1 level Balancing Equations
• Speed of a Wave NGSS aligned
• High School Chemistry 1 level: Limiting reagents
• Gas Properties-Inquiry Middle School
• Concept Questions for Chemistry using PhET
• Balloons and Static Electricity for Middle School
• Arithmetic Games (Inquiry Based)
• High School Inclusion Class Density Lab
• Middle School and High School Common Core Alignment Document
• Circuit inquiry for Middle school
• Projectile investigation for Middle School
• Gas Investigation for Middle School
• Conservation of Energy for Middle School
• States of Matter for Middle School
• Pendulum investigation for Middle School
• Reactions and Rates: Learning Goals from the design team (Inquiry Based)
• Visual Nucleosynthesis [Basic High School]
• PhET Sims Aligned to the Chemistry Curriculum
• Molecule Shapes Advanced
• Introduction to Gas Variables
• Isotopes
• Build a Molecule
• Gas Laws
• Ramp Middle School Inquiry
• High School Exploratory Lab for Balloons and Static Electricity
• Electric Fields of Dreams for High School Exploratory Lab
• Density-introduction
• Describing Location and Movement
• Making STABLE Atoms Lab
• Reactions and Rates College version for tab 3- kinetics (Inquiry Based)
• Projectile Motion
• Online Quiz for Build An Atom
• Lesson Plan for Teaching Shapes of Molecule
• Energy Skate Park for Middle School(Inquiry Based)
• Reactants, Products and Leftovers Activity 1: Intro to Chemical Reactions and Limiting Reactants
• Acid Concentration and Strength Investigation
• Beer's Law Warm-Up
• PhET Energy Forms and Changes Virtual Lab
• Projectile Motion Discovery
• Energy Skate Park Basics
• Beer's Law: An AP Chemistry Activity
• Induction (college homework version) (Inquiry Based)
• Bunny Blitz
• Middle School Math Sim Alignment
• Bohr model of the atom for Chemistry
• Gases Understanding physical properties of gases (Inquiry Based)
• Reactions and Rates 1 Introduction to reactions (Inquiry Based)
• Reactions and Rates 3: Introduction to Equilibrium (Inquiry Based)
• Salts and Solubility 2: Solubility (Inquiry Based)
• Salts and Solubility 4: Using Q and LeChateliers Principle
• Reactions and Rates 4 lessons (Inquiry Based)
• Salts and Solubility 3: Solution Equilibrium and Ksp (Inquiry Based)
• Exploring Radioactive Decay and Its Uses
• Radioactive Decay - ILD
• Limiting Reactants
• Strong and Weak Acids
• Simple Pendulum
• Natural Selection Lesson by UTeach
• Forces and Motion Lesson
• Energy Skate Park Basics Lesson
• Air Resistance Lesson
• Balloons and Static Electricity
• Gravity and Orbits Lesson
• Density Lesson (with Putty Lab)
• Build an Atom
• Experimental Design with Forces
• Hot Air Balloons Lesson
• Chemistry - Introduction to Coulomb's Law
• Introduction to the Gas Laws using PhET simulations
• Geometric figures
• NGSS Alignment Doc for Middle School targeted PhET Sims
• Density Exploration
• Building Fraction Sense Using “Fractions Intro PhET Simulation”
• Introduction to the gas laws
• Acid-Base Macro Particulate Symbolic
• Salts and Solubility 5: Designer Salts (Inquiry Based)
• Temperature and Energy NGSS aligned
• Inquiry Equilibrium activity
• Salts and Solubility 1: introduction to salts (Inquiry Based)
• Salts and Solubility Concept Questions for 5 activitites (Inquiry Based)
• How Will This Isotope Decay?
• Alpha Decay investigations
• Energy Skate Park Basics - Clicker Questions
• Conservation of Energy Exploration with Skatepark Physics
• Bending Light Student Worksheet
• Lens Inquiry
• MS and HS TEK to Sim Alignment
• Coulomb's Law for Chemistry
• Beta Decay Investigations
• Middle School - Electric Circuits
• States of Matter - Lab Simulation - student procedures and questions
• Experiment to determine relationship between wavelength, frequency and speed
• Ray Diagrams for Concave and Convex Mirrors
• Investigating Forces and Motion Through Inquiry
• Gravity Force Lab
• Exploring Stars and Blackbodies
• Electromagnetic Induction
• Kinetic Molecular Theory- Introduction (inquiry-based)
• How do PhET simulations fit in my middle school program?
• Build an Molecule - Inquiry-based basics
• Two Types of Energy - Mass & Spring
• States of Matter Simulation
• Basics of Electricity
• Pendulum variables
• Force introduction
• Reactions and Rates
• Refraction
• States of Matter Simulation Lab
• Properties of Waves - Lab Guide
• Net force
• Middle School Science
• Polarity Lab
• Conservation of Energy (Energy Skate Park)
• Moving Man I: Velocity vs. Time Graphs
• Moving Man II: Acceleration vs. Time
• Charges and Fields
• Ohm's Law, Kirchhoff's Laws, Resistors in Parallel and Series Lab
• Balancing equation
• ORGANIC CHEMISTRY Chemical Reactions of Alkanes and Alkenes
• Measurements of Density
• THE MOVING MAN: DISTANCE, DISPLACEMENT, SPEED & VELOCITY
• Investigating Net Force
• Middle School - series and parallel circuits
• An Introduction to pH
• What effect does dilution of an acid or base have on the pH of the solution?
• On the molecular level, what is the difference between acids and bases?
• Collecting and analyzing density data
• Sugar and Salt Solutions: intro to bonding
• What is an atom?
• Using the area model with expressions
• Properties of representations of linear functions
• Heat it Up
• Mixing paint with ratios
• Color Vision pHet Lab
• Greenhouse effect activity
• My Solar System
• Spring Force, Spring Constant and Elastic Potential Energy
• Charges and Charged Objects Investigation
• Magnet and Compass
• Moving Man Motion Graph Review
• Exploring the Energy Skate Park
• Build An Atom Guided Inquiry
• Quantum Wave Interference, PhET, Worksheet, High Intensity, Problems
• Intermolecular Forces and States of Matter - Interactive Lecture Demonstration
• Projectile Motion Lab #2
• Molecular Geometry Flash Cards
• Equilibrium Inquiry and Experiment Activity
• Exploring the density of mysterious objects
• Float or Sink? An essay on the density of materials
• Exploring EM Forces
• Wave Basics for Middle Schoolers
• Quest for the Coulomb Cup
• DC Circuit Lab
• Projectile Motion Worksheet
• Harmonic oscillator
• Beer's Law Lab: Introduction to Beer's Law
• Comparing the properties of different materials
• Climate Change - Gas
• Guided Discovery: BMI, BMR, Calories in/out
• Reactants, Leftovers and Products
• SNC 2D0 - Building Molecules Activity 2020
• Exploring the pH of substances
• What is an atom?
• Solutions Unit Sample
• Balanced and Unbalanced Forces - What Causes Acceleration
• What Type of Light Bulb Should I buy for my Grandma?
• Atomic Models and Spectroscopy
• Inquiry Activity: Waves
• Pendulum Virtual Lab 2021
• Arbeitsblatt Natürliche Selektion
• It is not a change... it is a crisis
• Greenhouse Gas Exploration
• Balancing Chemical Equations
• Visualizing Mixing with Sugar and Salt Solutions
• States of Matter PhET
• the advantages of species physical appearances corresponding to living environment
• (BNCC) Comparando as propriedades de diferentes materiais
• Water Waves in an Electric Sink
• Colors, Bunnies and Wolves: does the strongest survive?
• Atom Builder
• Projectile Motion Lab Report
• conservation of mechanical energy
• Opdrachten bij Reactanten, producten en resten
• Molarity Simulation
• The Simple Pendulum- What affects the Period of the pendulum?
• Computer Simulations as a Tool to Assist Teaching Basics of Electromagnetism (Simulações Computacionais Como Ferramenta Auxiliar ao Ensino de Conceitos Básicos de Eletromagnetismo)
• States of Matter Basics Student Guide
• Thermal Energy Flow PhET Lab
• Photoelectric Effect
• Ohm's Law Lab - Virtual
• Sound Waves
• Energy Transfer
• PhET: Energy Forms Worksheet
• Force and Motion Basics - Second grade
• Plate Tectonic SIM Lab
• It’s All in the Shape: Discovering Molecular Geometry
• Atomic Interactions PhET Exploration - with Coulomb's Law application
• Using the Atomic Interactions PhET Simulation: Concept Development for Understanding Energy Changes Associated with Bond Forming and Bond Breaking Events
• Elements and Compounds Lesson
• Homework Activity I
• Forces and Motion Basics Interactive Activity
• Pendulum Lab: What Affects the Period?
• PhET Lab States of Matter Basics
• Gravity Lab
• Addition and Resolution of Vectors
• Using the Reactions and Rates PhET Simulation: Concept Development Activity for Kinetics and Rates of Reactions
• Using the Molecule Polarity PhET Simulation: Concept Development for Understanding Molecular Dipoles
• Activity: Wave on a String
• Using the Coulomb’s Law PhET Simulation: Concept Development for Understanding Electrostatic Forces
• Using the Molecular Shapes PhET Simulation: Concept Development for Understanding Molecular Geometry and Shape
• The Two-Plate Special
• Energy Forms and Changes
• PhET Interactive Lab on pH
• Bouncing Off the Walls
• Projectile Motion
• Heat or temperature?
• 'Lectronic Plates
• Heat or temperature
• Newton's Second Law of Motion
• Pixel Peeping
• Cavendish Lab
• Conservation of Energy - conceptual
• Wave Interference- Waves (Sound and Light)
• Greased Lightning
• Worlds of Wonder
• Exploring Chemical Reactions and the Law of Conservation of Mass
• Electric Field Hockey Post-Game Analysis
• Introduction to Waves: Liquid Matter, Sound, and Light