185 Such-Ergebnisse, passend zu work function

Simulationen

• Aggregatzustände
• Alphazerfall
• Ballons & Auftrieb
• Bandstruktur
• Ableitung und Integral (HTML5)
• Der photoelektrische Effekt
• Doppel Potentialtopf und kovalente Bindungen
• Elektromagnetische Induktion (HTML5)
• Energieformen und Energieumwandlungen (HTML5)
• Energieskatepark (HTML5)
• Energieskatepark (Einstieg) (HTML5)
• Faradays elektromagnetisches Labor (HTML5)
• Faradays Elektromagnetisches Labor
• Funktionen Düse (HTML5)
• Funktionen Düse (Einstieg) (HTML5)
• Eigenschaften von Gasen (HTML5)
• Generator (HTML5)
• Hookesches Gesetz (HTML5)
• Kernspaltung
• Kräfte in einer Dimension
• Kräfte und Bewegung
• Kräfte und Bewegung: Grundlagen (HTML5)
• Laser
• Massen und Federn (HTML5)
• Massen und Spiralfedern
• Mein SonnenSystem
• Modelle des Wasserstoffatoms
• Pendel (HTML5)
• Projektilbewegung (HTML5)
• Quadratische Kurven (HTML5)
• Quanten gebundene Zustände
• Quantenwellen Interferenz
• Radiometrische Datierung
• Reversible Reaktionen
• Schiefe Ebene
• Schiefe Ebene: Kräfte und Bewegung
• Stimulation eines Neurons (HTML5)
• Stromkreise schalten: Wechselstrom (HTML5)
• Stromkreise schalten: Wechselstrom - Virtuelles Labor (HTML5)
• Trigonometrie Tour (HTML5)
• Tunneleffekt und Wellenpakete
• Unter Druck (HTML5)

Beiträge

• Function Fun
• Defining Functions
• The Photoelectric Effect and Work Functions
• Comparing Functions: Function Sleuthing to Find Rules
• Describing Functions
• The Photoelectric Effect and Work Functions
• Properties of representations of linear functions
• Definiendo Funciones
• Photoelectric Effect
• Funky Functions
• Photoelectric Effect Virtual Experiment
• Wave Modeling and Wave addition (Inquiry Based)
• Funciones con phets
• Photoelectric effect
• Function Builder
• Conservation of Energy 1: Introduction (qualitative approach)
• Modeling Friction (Inquiry Based)
• Conservation of Energy using Masses and Springs (homework version) (Inquiry Based)
• Funciones divertidas
• Position function of mass on spring
• Work - Energy
• FORCES AND MOTION WITH WORK ENERGY
• Defining Functions
• La función misteriosa
• Exploring Light as a Particle
• Work and Energy Simulation Lab
• Work Energy on a Ramp
• Propiedades de las Representaciones de Funciones Lineales
• Exploring Linear Functions
• Elastic potential energy, work and Hooke’s law.
• Guided Exploration on Lac Operon Function
• Parabolas on the Move!
• Ripple While You Work
• Application of The First Law of Thermodynamics
• Energy Skate Park
• Spring or Sprung?
• Conservation of Energy (Energy Skate Park)
• TRABALHANDO O CONCEITO DE FUNÇÃO AFIM OU FUNÇÃO POLINOMIAL DO 1º GRAU
• Função Polinomial do 1º grau com o auxílio do OA Construtor de Funções
• TRABALHANDO O CONCEITO DE FUNÇÃO AFIM OU FUNÇÃO POLINOMIAL DO 1º GRAU
• Exercício - Introdução à Lógica de Programação
• Trabalhando com o Construtor de Funções
• Constructing Functions
• Applications of Sinusoidal Functions
• The Atom; Discovery of the Atom
• Energy Transformations
• Wave Representations (Inquiry Based)
• Potential Difference in Circuits
• Stimulating Neurons
• Qualitative Introduction to Energy
• Testando o PhET
• Addition strategies within 10 (or 20)
• Energy Skate Park-NGSS aligned HS
• 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)
• Using Ratios and Rates to Solve Problems
• Investigating Springs
• potential well lab
• potential barrier lab
• Video: Self-paced learning on Energy Skate Park (GPE, KE and Work done)
• Forces and Motion: Finding the Mass of a Car
• Fields - NGSS Aligned
• Capacitor_Lab_Basics _html_Remote_lab
• RGB Color
• DC circuits lab with real equipment and CCK
• The Ramp Mechanical Advantage and Efficiency
• Middle School Math Sim Alignment
• Balancing Chemical Equations HTML5
• PhET Simulation- Lac Operon
• Electric Field and Electric Field Lines
• Bunny Blitz
• projectile motion
• Equivalent Expression Exploration
• Testing Ideas from Classical and Quantum Physics
• Energy Chains
• Solenoids
• Projectile motion
• Greenhouse Gas Lab
• Exploring pH & Its Variations Through Water Dilution (for visually impaired students)
• Rotational Equilibrium Simulation HW
• Force and Motion
• Energy Skate Park Formal Lab
• projectile motion
• Electric Field Lab
• Ohm's Law Graphing Lab
• Exploring parallel and perpendicular lines
• pH Relationships
• Models of the Atom
• Middle School and High School Common Core Alignment Document
• Gene Expression and Protein Synthesis
• It’s All in the Shape: Discovering Molecular Geometry
• Pressure in Liquids and Gases
• Behavior of Semiconducting Materials
• Photoelectric Virtual Experiment
• Introduction to Gas Variables
• Forces and Motion Basics Interactive Activity
• SECUNDARIA: Alineación PhET con programas de la SEP México (2011 y 2017)
• Unusual cases of oscillation
• PhET Buoyancy Lab Student Worksheet - Exploring Density, Gravitational Forces and Buoyant Forces
• Guided Manual-Worksheet of ideal gas
• Charges and Fields Exploration
• Action Potential Simulation - Guided Inquiry Activity
• Refraction Lab
• Projectile Motion
• Forces and Motion - Friction and Free Body Diagrams
• Variables and Coefficients
• Potential Energy of A Spring (Elastic Potential Energy)
• Balancing equation
• Thermodynamics of Skating
• Electric Field vs Electric Potential
• Preguntas de razonamiento para todas las simulaciones HTML5
• Friction Investigation
• Simple Circuits
• Radioactive Decay, Fission and Chain Reactions
• Energy Skate Park Lesson
• Maze Game
• Greenhouse effect activity
• projectile motion
• High School Chemistry 1 level: Limiting reagents
• Spring Simulation - Identifying Variables & Asking Questions
• Lab - Natural Selection
• Energy Skate Park Lab (html5)
• Free fall
• Mr. (Moving Man)
• CD's, DVD's & Optical Commmunication: Binary Coding and Diffraction Errors
• Light Emission and Lasers
• PREPARATORIA: Alineación de PhET con programas de la DGB México (2017)
• Gas Laws, Quantitative, Charles' law
• Gas Laws, Quantitative, Gay-Lussac's law
• Unit Rate as Slope
• Gas Laws, Quantitative, Boyle–Mariotte law
• Virtual Lab - Circuit Basics
• Writing an Equation for the Wave
• Greased Lightning
• Hooke's Law, Spring Constant, and Energy HONORS
• The Two-Slit Experiment
• Playing with atoms
• Energy Simulation Lab - Skate Park
• Quest for the Coulomb Cup
• States of Matter - Lab Simulation - student procedures and questions
• Atomic Models and Spectroscopy
• Coulomb's Law Data Collection and Analysis (remote online learning)
• Computer Simulations as a Tool to Assist Teaching Basics of Electromagnetism (Simulações Computacionais Como Ferramenta Auxiliar ao Ensino de Conceitos Básicos de Eletromagnetismo)