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Simulaciones
- Aterrizaje Lunar
- Bajo Presión (HTML5)
- Carga Radiante
- Energía en el Parque del Patinador:Fundamentos (HTML5)
- Fuerzas en 1 Dimensión
- Fuerzas y Movimiento
- Fuerzas y Movimiento:Fundamentos (HTML5)
- Gravedad y Órbitas (HTML5)
- El Hombre en Movimiento
- Juego del Laberinto
- Laboratorio de Fuerza de Gravedad: Fundamentos (HTML5)
- Laboratorio de Fuerza Gravitacional (HTML5)
- Laboratorio de Péndulos (HTML5)
- Leyes de Kepler (HTML5)
- Masas y Resortes (HTML5)
- Masas & Resortes
- Masas y Resortes: Fundamentos. (HTML5)
- Mi sistema solar (HTML5)
- Movimiento de la Mariquita 2D
- Movimiento de un Proyectil (HTML5)
- Movimiento en 2D
- Parque de patinaje de la energía (HTML5)
- Presión de Fluido y Flujo
- Rampa: Fuerzas y Movimiento
- Revolución de la Mariquita
- Torque
Actividades
- Determination of Gravitational Acceleration
- Pendulum Lab 2: Find g (Inquiry Based)
- Maze Game- A Velocity & Acceleration Comparison
- Acceleration
- Determination of Value of Universal Gravitational Constant
- Calculus Grapher: Relating motion graphs to calculus graphs
- Determination of Value of Universal Gravitational Constant
- Acceleration Virtual Lab
- friction and acceleration
- Projectile Motion
- Gravitational Force and Orbits
- Calculating the Acceleration
- Energy Skate Park Basics | Remote Lab
- Force and Motion activity 2: Relating graphs and free body diagrams using Moving Man and Forces 1D (Inquiry Based)
- Projectile Motion
- Force, Mass, Acceleration
- Gravity and Orbits Lesson
- MYP Physics: Gravitational force vs. Distance
- Newton's Gravitational Constant Calculation
- Friction and Acceleration
- Gravity Force Lab : calculations
- Fields - NGSS Aligned
- Force and Acceleration
- Forces and Motion activity 1: Predicting speed and directions changes (Inquiry Based)
- 2D Motion
- Ramp: Forces and Motion Investigation
- Investigating Gravitational Interactions
- Constant Acceleration Motion
- motion along straight line with constant acceleration
- Constant Velocity & Uniform Acceleration with the Moving Man
- simple pendulum
- Orbits--effects of mass and distance
- Force and Acceleration
- Moving Man: Pos and Vel Graphs
- Roller Coaster Physics Investigation
- Finding Properties of Energy (via the skate park)
- Moving Man: Simple Acceleration
- Balanced and Unbalanced Forces - What Causes Acceleration
- Conservation of Energy 1: Introduction (qualitative approach)
- Maze Game 2: Vector controls for circular motion (Inquiry Based)
- Maze Game 1: Using vector representations to move through a maze (Inquiry Based)
- Energy Skate Park Analysis Lab
- Conservation of Energy using Masses and Springs (Inquiry Based)
- Phet Energy Forms and Changes Student Worksheet
- Ladybug Motion 2D Vector controls for circle/elliptical motion (inquiry based)
- Intro to Energy Conservation
- Energy Skate Park - investigation
- Change Your Motion
- Rules for Forces
- Mr. (Moving Man)
- Moving Man Simulation Activity
- To study the dependance of time period on (i) length of the pendulum and (ii) acceleration due to gravity
- Motion Graphs
- Conservation of Energy using Masses and Springs (homework version) (Inquiry Based)
- Energy Skate Park - Concept Questions Compendium
- Moving Man
- Balanced & Unbalanced Torque Webquest
- Newton's Second Law
- Moving Man II: Acceleration vs. Time
- Exploring Vectors and Projectile Motion
- Satellite Motion Lab
- Milk Trucks
- Charges and Fields Remote Lab Introduction to Static Electricity
- uniformly accelerated motion
- Moving Man (Inquiry Based)
- Forces & Motion
- Moving the Man
- Moving Man Questions
- Moving Man guided inquiry
- Motion and Moving Man Simulation Homework
- Introduction to rotational motion
- Student Guide for PhET - The Moving Man (JAVA) student guide
- Applications of Parametric Equations
- simple pendulum lap
- Conservation of Energy Exploration with Skatepark Physics
- Energy Skate Park Basics: Mechanical Energy Lab
- 3-1 PhET LAB velocity time graphs
- Net Forces and Newton's Second Law
- Forces and Motion: Balanced and Unbalanced Forces, and Predicting Changes in Motion (Inquiry Based)
- projectile motion worksheet
- PHET The Moving Man Motion Graphing Model Activity
- Projectile motion - Lab Report
- Force and Motion: Basics
- 1 Dimensional Motion - Kinematics and Graphing
- Unusual cases of oscillation
- Modelling Motion
- Gravity and Orbits Student Guide
- Gravity Between Bodies
- universal Gravitation
- Introduction to Energy Model
- 2nd Law Simulation Lab
- Newton's Laws and the Lunar Lander
- Student Guide for PhET - Forces Motion in html5
- Newton's Second Law of Motion
- Intro Lab
- Rotational Motion
- Torque, Moment of Inertia, Angular Momentum
- Newton's 1st & 2nd Laws
- Radio Daze investigation
- Forces Simulator Activity
- Maze Game II (circular motion)
- Motion in Two Dimensions
- Intro to Rotational Motion
- Gravity Force Lab PreAP using HTML5 Sim
- Mass Spring Activity
- Moving Man and Maze Game Simulations Homework
- Lunar Lander/ Fun Game
- Forces and Motion
- Projectile Motion - developing understanding.
- conservation of mechanical energy
- projectile motion
- Forces and Newton's Laws Review
- AP Physics Gravity Lab
- Exploring Gravitation
- Investigating time period of a simple pendulum
- Discovering Newton's Second Law
- Second Law Inquiry PhET Forces and Motion
- Pendulum Energy
- PHET Free Fall Lab
- Fee Fall
- Video: Self-paced learning - Moving Man Simulation (Motion Graphs)
- Projectile Motion Experiments
- Mass/Spring Activity
- MYP Physics: Electric Force vs. Distance
- Pendulum Energy
- Newton's Second Law Investigation
- free fall
- Energy Analysis of a Mass Oscillating on a Spring
- Forces and Motion Basics Interactive Activity
- Moving Man Algebra uses
- Exploring the Energy Skate Park
- Mechanical energy lab - Remote
- Projectile Lab (Angled Launch)
- Projectile Lab (Horizontal Launch)
- Introduction to Forces in 1-D
- Projectile Motion (Anwar Mabrouk Al-Talha)
- Moving Man with Position and Velocity graphs
- Hooke's Law (Springs)
- Modeling Paradigm Lab- 2nd Law
- projectile motion
- Lady Bug: Angular Kinematics
- project motion
- Projectile Motion
- Projectile Motion
- Proving Newton's Second Law
- Forces in 1 Dimension
- The "Lifelike" Moving Man: Variation in motion graphs
- Maze Game
- Projectile Motion Lab Report
- Projectile Motion
- Projectile Motion Lab #2