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Simulazioni
- Alimentazione ed esercizio
- Attrito (HTML5)
- Bilanciamento di reazioni chimiche (HTML5)
- CampoE
- Carica radiante
- Cariche e campi elettrici (HTML5)
- Circuito elettrico
- Circuito Pila - Resistenza
- Concentrazione (HTML5)
- Condensatori
- Conducibilità
- Costruisci una funzione (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 una curva
- Distribuzione campionata di proiettili (HTML5)
- Doppia buca di potenziale e .....
- Effetto serra (HTML5)
- Effetto Serra
- Effetto tunnel quantistico e pacchetti d'onda
- Elettricità statica e palloni (HTML5)
- Elettricità statica
- Energia con lo Skateboard: concetti base (HTML5)
- Esperimento di Stern-Gerlach
- Espressione genica: fondamenti (HTML5)
- Espressione genica: fondamenti
- Fissione Nucleare
- Forme e trasformazioni di energia (HTML5)
- Forze e moto
- Forze e moto: le basi (HTML5)
- Forze in una dimensione
- Fourier: Creare onde (HTML5)
- Fourier: Costruire le onde
- galleggiabilità
- Generatore
- Ghiacciai
- Grafici di funzioni derivate e integrali (HTML5)
- Grafici lineari (HTML5)
- Gravità e orbite (HTML5)
- Hockey Elettrico
- 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)
- Isotopi e massa atomica (HTML5)
- John TraVolt (HTML5)
- John TraVolt
- Kit Costruzione Circuiti: Laboratorio Virtuale (HTML5)
- Kit Creazione Circuiti: Corrente Continua (HTML5)
- Kit creazione circuiti: corrente continua - Laboratorio virtuale (HTML5)
- Kit Costruzione Circuiti: Corrente Alternata (HTML5)
- L'Effetto Fotoelettrico
- L'uomo mobile
- Laboratorio condensatori: introduzione (HTML5)
- Laboratorio dati Proiettili (HTML5)
- Laboratorio elettromagnetico di Faraday
- Laboratorio Gravità (HTML5)
- Laboratorio Pendoli (HTML5)
- Laboratorio sulla legge di Beer (HTML5)
- Laboratorio Urti (HTML5)
- Laser
- Legge di Coulomb (HTML5)
- Legge di Faraday (HTML5)
- Legge di Hooke (HTML5)
- Legge di Ohm (HTML5)
- Leggi di Keplero (HTML5)
- Leve (HTML5)
- Luci al neon e altre lampade a scarica
- Macchina del Gene: L'Operone del Lattosio
- Magnete e Bussola
- Magneti ed elettromagneti
- Masse e molle (HTML5)
- Masse e molle
- Metodo dei minimi quadrati (HTML5)
- MIcroonde
- Modelli dell'atomo di Idrogeno
- Modelli molecolari (HTML5)
- Modi normali di vibrazione (Risonanza)
- Molarità (HTML5)
- Molecole e luce (HTML5)
- Momento meccanico
- Moto del proiettile (HTML5)
- Moto piano
- Moto piano della Coccinella
- Motori molecolari
- Navicella lunare
- Neurone (HTML5)
- Onde Radio
- Onde sonore
- Onde su una corda (HTML5)
- Ottica geometrica (HTML5)
- Palloni e galleggiamento
- Piano inclinato: Forze e Moto
- Pinze ottiche e applicazioni
- Polarità molecolare (HTML5)
- Polarità molecolare
- Pressione in un fluido e portata
- Probabilità (HTML5)
- Proprietà dei gas (HTML5)
- La rampa
- Rappresentazione Pendenza-Intercetta (HTML5)
- Reagenti, prodotti e residui (HTML5)
- Reazioni e velocità di reazione
- Reazioni reversibili
- Resistenza in un cavo elettrico (HTML5)
- Risonanza
- RMI semplificata
- Rotazione della coccinella
- Sali & Solubilità
- Scala del pH (HTML5)
- Selezione naturale
- 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 legati
- Stima
- Stiramento DNA
- Struttura a bande
- Tettonica a placche
- Visione dei Colori (HTML5)
- Optical Quantum Control
Attività
- Potential Difference in Circuits
- Strong and Weak Acids
- Limiting Reactants
- Visualization and Visual Illusions SIM Homework
- vectors
- Undergrad MRI Workshop Activity
- Projectile Motion Experiments
- Guided Discovery (Chinese/English) for Freshman University Physics: 5. Introduction to Waves
- Guided Discovery (Chinese/English) for Freshman University Physics: 6. Wave Interference
- Guided Discovery (Chinese/English) for Freshman University Physics: 2. Newtonian Mechanics
- Guided Discovery (Chinese/English) for Freshman University Physics: 1. Kinematics
- Guided Discovery (Chinese/English) for Freshman University Physics: 3. Energy & Momentum
- Guided Discovery (Chinese/English) for Freshman University Physics: 4. Rotations & Oscillations
- EM wave analogy tutorial
- Trig Tour - Seeing Patterns in a Unit Circle
- Trig Tour - Connecting the Unit Circle to the Graph
- DC circuits lab with real equipment and CCK
- Introduction to Discharge Lamps
- How to make a laser
- Understanding the Photoelectric Effect
- Wave Particle Duality
- Intro to Photoelectric Effect Interactive Lecture
- Probability and Randomness Interactive Lecture
- MRI lecture and homework
- Davisson Germer lecture and homework
- Reflection and Transmission Interactive Lecture
- Electric Field Hockey Simulation Homework
- Stern Gerlach clicker questions
- Atomic models homework (Inquiry based)
- Invention Lab_Wave Interference
- What are the chances?
- Trig Tour - Using Reference Angles with a Unit Circle
- Projectile Motion
- Fuerzas Intermoleculares y estados de la materia
- PhET Collision Lab
- Choral counting
- Comparing numbers using a vertical number line
- True or False? Kindergarten
- Drag and count
- Subtraction stories
- What is greater and less?
- Addition strategies within 10 (or 20)
- Ten and how many more?
- My mystery number
- Choral Counting
- Family of Mr. 10
- Organize it!
- True or False? 1st grade
- Count and Compare
- Balloons and Static Electricity for Middle School
- Sound_Inquiry for Middle School
- Gas Properties-Inquiry Middle School
- Gas Properties Modular Homework Activity
- ¿Cuáles son las probabilidades?
- Sugar and Salt Solutions: Exploring Common Substances Using a PhET Simulation
- Forces & Motion: Basics HTML5 - Part 2 (Friction)
- Simple Pendulum
- Is Natural Selection Fur-real?
- How Can You Light A Bulb?
- Faraday’s Electromagnetic Lab
- Electrical Charge Lab
- Energy Forms Clicker Questions
- Sound and Wave Basics
- Investigating Density, Volume, Mass and Weight
- Phases of Matter
- Estimation Game
- Ramp: Forces and Motion Investigation
- Eating and Exercise Activity
- Balancing Equations
- Exploring Average Atomic Mass
- Ladybug Motion in 3rd Grade
- Exploring Electric Potential, Electric Field and Distance Relationships
- Testing Ideas from Classical and Quantum Physics
- Making Green Paint
- Investigation of sugar and salt solutions
- Introduction to energy- a chemical context
- Calculating Concentration
- Movement of substances across a semi-permeable membrane
- CD's, DVD's & Optical Commmunication: Binary Coding and Diffraction Errors
- Radioactive Decay, Fission and Chain Reactions
- Light Emission and Lasers
- Color Vision Simulation Homework
- Circuit Construction Kit Simulation Homework
- Sound Simulation Homework
- Battery-Resistor Circuit Simulation Homework
- Moving Man Simulation Activity
- Motion and Moving Man Simulation Homework
- Radio Waves & Electromagnetic Fields Simulation Homework
- Microwaves Simulation Activity
- Sound Simulation Homework II
- Battery-Resistor Circuit Simulation Homework III
- Battery-Resistor Circuit Simulation Homework II
- Gas Properties and Balloons & Buoyancy Simulations Homework
- Masses and Springs Simulation Homework
- Microwaves Simulation Homework
- Moving Man and Maze Game Simulations Homework
- Charges Activity with Various Simulations
- Acid-Base Macro Particulate Symbolic
- forces and motion basics
- Bose-Einstein Condensation Lesson
- Blackbody Spectrum & Lasers Simulations Homework
- Hook's law
- Introduction to Fourier Analysis
- Greenhouse Simulation Lesson
- Blackbody Spectrum Simulation Homework
- Pasqyrimi dhe perthyerja e drites
- Pasqyrimi i plote i brendshem
- Energjia kinetike dhe potenciale e trupit
- Forca dhe levizja 2
- Force-time graph activity
- Current in DC Circuits
- Adding vectors
- Spinometer
- projectile
- projectile motion
- Projectile Motion
- projectile motion
- Projectile Motion
- Projectile motion experiment
- Balancing Chemical Equations Inquiry Lab
- One- and Two-Dimensional Collisions - Concepts Practice
- Projectile Motion
- Projectile motion
- pH Scale Guided Inquiry Activity
- Projectile Motion
- Addition of two vectors
- Percobaan gelombang pada tali
- Projectile motion
- projectile motion
- friction
- Virtual Ripple Tank
- Unusual cases of oscillation
- Projectile motion
- Spinometer
- Horizontal Projectile Motion Experiment
- projectile motion
- Electricity and Circuit construction.
- Acid-Base Discovery (ICP/Physical Science Level)
- Simple Harmonic Motion & Springs
- Projectile Motion
- Projectile motion
- Projectile
- Vector addition worksheet
- vectors
- Projectile
- projectile motion
- Tutorial
- Vectors Worksheet
- The Basics of Gene Expression
- CONSERVATION OF MECHANICAL ENERGY
- projectile motion
- Membrane Diffusion Tutorial
- Friction Experiment
- Worksheet
- Projectile Motion (Lab Report)
- Friction
- vectors addition
- Projectile Motion - Physics 1 Lab
- projectile motion simulation
- Projectile Motion
- Projectile Motion report
- Projectile motion worksheet
- Conservation of Mechanical Energy (Lab Report)
- Vectors Lab Report
- Project motion worksheet
- Virtual Lab - Investigating Refraction of Light
- projectile motion
- Projectile motion and horizontal component of its velocity
- projectile motion
- Capacitors - Introduction-
- project motion
- projectile
- Virtual Lab - Hooke's Law and Spring Systems
- Addition of two vectors
- projectile motion
- Wheatstone Bridge
- collision in one and two dimensions
- Conservation of Linear Momentum
- motion along straight line with constant acceleration
- Capacitor Lab: Basics: Inquiry into Capacitor Design
- Conservation Of Mechanical Energy
- Capacitor and Dielectric 2
- universal Gravitation
- coulomb's Law
- Study and Verify Kirchhoff's Laws (KCL & KVL)
- Projectile Motion Experiments
- uniformly accelerated motion
- Lab Experiment
- Fee Fall
- Conservation of Mechanical Energy
- vectors
- projectile motion
- Vectors Addition
- Simple Harmonic Motion (Pendulum & Spring)
- DC Measuring Devices
- Resistance and Resistivity
- projectile motion
- Ohm's Law
- reflection refraction and total internal reflection
- Kirchhoff's Law
- Forces at equilibrium
- equilibrium of forces
- motion along straight line with constant speed
- vectors adding experiment
- Vector Addition Worksheet
- projectile motion worksheet
- SIMPLE DC MEASUREMENTS
- Vector Addition
- vectors
- Projectile Motion
- Vector Addition
- projectile motion experiment
- Addition of two vectors
- victors worksheet
- Projectile Motion - Physics 1 lab experiment
- Projectile Motion
- vector addition activity
- Forces at Equlibrium
- projectile motion
- Time of flight related to initial speed in a horizontal projectile.
- Worksheet vector
- Projectile motion
- Addition of two vectors
- Vectors for Physics 1
- Projectile motion
- projectile motion
- projectile Motion
- projectile mothion
- Linear momentum
- Colission Lab colorado
- Projectile Motion
- Projectile motion Experiment
- projectile motion
- Horizontal Projectile
- Projectile of motion - time of flight (horizontal projectile)
- Horizontal Projectile Motion
- project motion
- Projectile Motion
- projectile motion
- Projectile Motion ( including air resistance )
- projectile motion
- Conservation of Linear Momentum
- Vector Addition Worksheet
- Projectile Motion Worksheet
- vectors
- Projectile Motion
- Projectile Motion
- Projectile Motion Lab Report
- Measuring Density
- projectile motion
- Vector Addition Experiment
- Hooke's Law and The Spring Constant
- Conservation of mechanical energy.
- Vectors worksheet
- pendulum exp
- Conservation of linear momentum
- projectile motion
- worksheet about vectors
- Collision exp
- Projectile Motion
- Vector
- vector addition
- Conservation Of Mechanical Energy
- Projectile motion lab report
- Conservation of Linear Momentum
- Projectile Motion
- Conservation of Linear Momentum
- vectors addition
- Horizontal projectile motion
- Conservation of Mechanical Energy
- Conservation of Mechanical Energy
- Vectors Addition
- Projectile motion – Complementary Angles and Range
- projectile motion worksheet
- Conservation of Linear Momentum
- Vector Addition
- Conservation of mechanical energy
- Projectile Motion
- Projctile motion
- Projectile Motion
- linear momentum and collisions
- Conservation of Linear Momentum
- Force and Acceleration
- Conservation of Mechanical Energy
- projectile motion
- Projectile Motion Worksheet
- Projectile Motion Lab Report
- Simple Pendulums - What Affects the Period?
- Projectile Motion Lab Report
- Exploring Light as a Wave
- Exploring Light as a Particle
- Vectors; The resultant of adding two vectors.
- Intro to Ohm's Law
- Air Resistance
- Projectile motion lab report
- vectors
- Vectors Addition
- Ohm's Law
- Projectile Motion Experiment Abdulla
- Projectile motion
- Vector addition exercises
- Hooke's Law and the Spring Constant
- projectile motion worksheet
- Projectile motion
- Projectile Motion Experiment
- Projectile Motion - Lab Experiment
- Projectile Motion
- Conservation of Linear Momentum
- Vectors.
- Science activity sheet: Acids_bases solutions
- Projectile Motion
- Electric field, electric potential and Coulomb's law
- Projectile Motion
- Projectile Motion Scientific Enquiry
- Creating a successful population
- Gravity, Orbits and Kepler's Laws
- Temperature and Luminosity of Stars: Wein's Law and the Stephan Boltzmann Law
- Oscilatory Motion
- Laser activity
- Simple Harmonic Motion
- Skate Park and Energy Conservation
- Making use of the Sound Simulations
- Prinsip Bernaulli
- Inquiry activity about State of Matter: Basic
- SBL-Projectile Motion
- 산-염기 용액 SIM 사용지침서
- Data Detective
- Discovering Newton's Second Law
- circuits in parallel and in series
- Position function of mass on spring
- Atomic Spectra and the Composition of Stars
- 풍선과 정전기 SIM 사용지침서
- Determinine Electric Field Relationships
- 러더포드 산란 SIM 사용지침서
- 마이크로파 SIM 사용지침서
- LC Circuits and Radio Tuners
- Boyle's Law
- Capacitors
- Ohm's Law
- Resistance and Resistivity
- Vector Walk
- Pressure vs Temperature for Ideal Gases
- 물질의 상태SIM 사용지침서
- 동위원소와 원자량 SIM 사용지침서
- 물질의 상태(기초) SIM 사용지침서
- 밀도 SIM 사용지침서
- 반응과 반응속도 SIM 사용지침서
- 분자 구성하기 SIM 사용지침서
- 분자구조 SIM 사용지침서
- 분자구조(기초) SIM 사용지침서
- 분자 극성 SIM 사용지침서
- Beer의 법칙 사용지침서(User Manual)
- 농도 SIM 사용지침서
- 화학반응식 완결하기 SIM 사용지침서
- 광전효과 사용지침서
- 네온등과 방전램프 SIM 사용지침서
- 방사성 연대 측정게임 사용지침서
- 예상하기 SIM 사용설명서
- 분자와 빛 SIM 사용지침서
- 설탕과 소금 용액의 SIM 사용지침서
- 수소원자의 모형 SIM 사용지침서
- 알파붕괴 SIM 사용지침서
- 염과 용해도 SIM의 사용지침서
- 온실효과 SIM 사용지침서
- 원자간 상호작용 SIM 사용지침서
- 원자 만들기 SIM 사용지침서
- 줄의 피동 SIM 사용지침서
- 풍선과 부력 SIM 사용지침서
- 기체의 설질 SIM 사용지침서
- 핵분열 SIM 사용지침서
- 흑체 스펙트럼 SIM 사용지침서
- 라디오파와 전자복사장 SIM 사용지침서
- 1차 방정식의 그래프 SIM 사용지침서
- Initial Magnetism Investigation (Inquiry Based)
- 분수-그림 연결 SIM 사용설명서
- 2차 방정식 그래프 작성기 SIM 사용설명서
- 벡터 더하기 SIM 사용설명서
- 곱셈 나눗셈 연습 SIM 사용설명서
- 분수 소개 SIM 사용설명서
- 미적분 그래프 작성기 사용설명서
- 플린코 확률 SIM 사용설명서
- Determination of Planck's Constant
- Guided Manual-Worksheet of ideal gas
- Forces in 1 Dimension
- Guided Manual-Worksheet of ideal gas
- Friction and Acceleration
- 분수 만들기 SIM 사용설명서
- Pesawat Sederhana (Tuas)
- Addition of Vectors by its Components
- Math facts - Using the Multiplication Chart
- HUKUM HOOKE
- Exploring Pressure
- Investigating the Parameters of Circular Orbits
- Plinko Probability for Long-Run Frequencies
- Projectile Motion (#lab)
- Electrical circuits in virtual laboratory
- PhET activity guide
- 大一物理引導式自我發現 (中文/英文): 轉動和振蕩
- projectile motion
- Molecule Building
- Determination of Value of Universal Gravitational Constant
- Determination of Value of Universal Gravitational Constant
- Calculating the Acceleration
- Equilibrium Conditions
- Effects of pH
- Spring Oscillators Activity
- Pendulum
- Projectile Motion
- Hooke's Law
- Projectile Motion
- Teaching pendulum experimental in Persian
- Masses and Springs
- ปฏิบัติการเรื่องแรงเคลื่อนไฟฟ้าและความต้านทานภายในเซลล์
- ปฏิบัติการเรื่องกฎของฮุคและการเคลื่อนที่แบบSHM
- กิจกรรม จม-ลอย
- ปฏิบัติการเรื่องการสลายตัวของธาตุกัมมันตรังสี
- Determination of Molarity
- Elastisitas dan Hukum Hooke
- Praktikum Keseimbangan
- Density
- Find the Focal length of mirror and lense
- Discovery, invesigation
- Perubahan Bentuk Energi
- pH척도 사용지침서
- 가역반응 SIM 사용지침서
- 커브 핏팅 SIM 사용 설명서
- Resistance in a Wire
- Projectile Motion Worksheet
- Εργαστήριο Πυκνότητας
- Activity in Mechanics (Collisions)
- Activity in Electricity and Magnetism (Resistor Networks and Kirchhoff's Rules)
- Activity in Electricity (Coulomb's Law)
- Density-introduction
- Natural Selection
- Types of Waves and its Parts
- Forces and Motion
- The Dichotomous Key
- Atomic Models and Spectroscopy
- Discharge Lamps & Flame Tests
- Molecular Geometry and Polarity
- Atomic Models and Spectroscopes
- What Type of Light Bulb Should I buy for my Grandma?
- Why do Icebergs Float?
- ДОСЛІДЖЕННЯ ТЕПЛОВОГО ВИПРОМІНЮВАННЯ
- Demonstration, lab, Homework
- lab, discussion prompts, demonstration, homework
- การบวกลบเวกเตอร์
- Simple Pendulum
- การทดลองที่ 11 วงจรไฟฟ้ากระแสตรง
- LAB การสะท้อนและการหักเหแสง
- Hook's Law
- การทดลองที่ 6 คลื่นในเส้นเชือก
- LAB การต่อแบตเตอรีและการประยุกต์ใช้งาน
- Free-Fall and Projectile Motion
- ndertimi i nqarqeve te intergruara
- lab
- Levizja e planeteve rreth Diellit
- Forca dhe levizja 1
- Ndertimi i qarqeve elektrike ne seri
- Computer Simulations as a Tool to Assist Teaching Basics of Electromagnetism (Simulações Computacionais Como Ferramenta Auxiliar ao Ensino de Conceitos Básicos de Eletromagnetismo)