120 søgeresultater matchende Work
Simuleringer
- Aldersbestemmelse og radioaktivitet
- Alfahenfald
- Balloner og opdrift
- Energiformer og ændringer (HTML5)
- Energi-skatepark (HTML5)
- Energi-skatepark: Basis (HTML5)
- Faradays elektromagnetiske laboratorium (HTML5)
- Faradays elektromagnetiske laboratorie.
- Faradays lov (HTML5)
- Fotoelektrisk effekt
- Gas-egenskaber (HTML5)
- Generator (HTML5)
- Hookes lov (HTML5)
- Kernespaltning
- Krafter og bevægelse
- Kræfter i 1 dimension
- Kræfter og bevægelse: Basis (HTML5)
- Lasere
- Mit solsystem
- Pendul-laboratorium (HTML5)
- Rampe: Kraften og bevægelse
- Rampen
- Tilstandsformer
- Vægte og fjedre (HTML5)
- Vægte og fjedre
Aktiviteter
- Conservation of Energy 1: Introduction (qualitative approach)
- Conservation of Energy using Masses and Springs (homework version) (Inquiry Based)
- Modeling Friction (Inquiry Based)
- Work - Energy
- FORCES AND MOTION WITH WORK ENERGY
- Masses and Springs Homework Determine Unknowns (Inquiry Based)
- The Photoelectric Effect and Work Functions
- The Photoelectric Effect and Work Functions
- Work Energy on a Ramp
- Work and Energy Simulation Lab
- Elastic potential energy, work and Hooke’s law.
- Photoelectric Effect
- Ripple While You Work
- Application of The First Law of Thermodynamics
- Conservation of Energy (Energy Skate Park)
- Energy Skate Park
- Spring or Sprung?
- Potential Difference in Circuits
- Guía de trabajo Descubre las leyes de los gases.
- Qualitative Introduction to Energy
- Ramp Activity 1: Using free body diagrams for motion on an incline (Inquiry Based)
- Energy Skate Park-NGSS aligned HS
- Using Ratios and Rates to Solve Problems
- Ramp Activity 2: Calculating Net force on an incline (Inquiry Based)
- Photoelectric Effect Virtual Experiment
- Investigating Springs
- Photoelectric effect
- Fields - NGSS Aligned
- RGB Color
- Capacitor_Lab_Basics _html_Remote_lab
- Forces and Motion: Finding the Mass of a Car
- DC circuits lab with real equipment and CCK
- Video: Self-paced learning on Energy Skate Park (GPE, KE and Work done)
- The Ramp Mechanical Advantage and Efficiency
- Bunny Blitz
- Testing Ideas from Classical and Quantum Physics
- projectile motion
- Energy Chains
- Equivalent Expression Exploration
- Exploring Light as a Particle
- Rotational Equilibrium Simulation HW
- Greenhouse Gas Lab
- Force and Motion
- Energy Skate Park Formal Lab
- Exploring parallel and perpendicular lines
- Defining Functions
- Models of the Atom
- pH Relationships
- Ohm's Law Graphing Lab
- projectile motion
- Electric Field Lab
- Photoelectric Virtual Experiment
- Introduction to Gas Variables
- Forces and Motion Basics Interactive Activity
- Guided Manual-Worksheet of ideal gas
- Forces and Motion - Friction and Free Body Diagrams
- Thermodynamics of Skating
- Potential Energy of A Spring (Elastic Potential Energy)
- Charges and Fields Exploration
- Electric Field vs Electric Potential
- Variables and Coefficients
- Action Potential Simulation - Guided Inquiry Activity
- Refraction Lab
- Balancing equation
- Projectile Motion
- Maze Game
- Energy Skate Park Lesson
- Radioactive Decay, Fission and Chain Reactions
- Spring Simulation - Identifying Variables & Asking Questions
- Mr. (Moving Man)
- Energy Skate Park Lab (html5)
- High School Chemistry 1 level: Limiting reagents
- Free fall
- projectile motion
- Stimulating Neurons
- Lab - Natural Selection
- Greenhouse effect activity
- Light Emission and Lasers
- CD's, DVD's & Optical Commmunication: Binary Coding and Diffraction Errors
- Greased Lightning
- Gas Laws, Quantitative, Charles' law
- Gas Laws, Quantitative, Gay-Lussac's law
- Gas Laws, Quantitative, Boyle–Mariotte law
- Energy Simulation Lab - Skate Park
- The Two-Slit Experiment
- Playing with atoms
- Unit Rate as Slope
- Virtual Lab - Circuit Basics
- Hooke's Law, Spring Constant, and Energy HONORS
- Writing an Equation for the Wave
- Atomic Models and Spectroscopy
- Quest for the Coulomb Cup
- States of Matter - Lab Simulation - student procedures and questions
- 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)