600 Zoekresultaten die overeenkomen met University

Simulaties

• Aggregatietoestanden (HTML5)
• Alfaverval
• In evenwicht brengen (HTML5)
• Ballonnen en opwaartse kracht
• Ballonnen en statische elektriciteit (HTML5)
• Ballonnen en statische elektriciteit
• Bandstructuur
• Betaverval
• Beweging in een vlak
• Botsing Lab (HTML5)
• Bouw een atoom (HTML5)
• Bouw een atoomkern (HTML5)
• Bouw een molecule (HTML5)
• Boventonen
• Broeikas effect (HTML5)
• Circuit bouwdoos wisselstroom - Virtueel lab (HTML5)
• Concentratie (HTML5)
• Condensator Lab
• Condensator lab: eenvoudig (HTML5)
• Covalente bindingen (dubbele potentiaalputten)
• Davisson-Germer: diffractie van elektronen
• De wet van Coulomb (HTML5)
• De wet van Faraday (HTML5)
• Dichtheid (HTML5)
• Diffusie (HTML5)
• DNA strekken
• Doolhofspel
• Drijven
• Eigenschappen van gassen (HTML5)
• Elektrischveldhockey
• Elveld
• Energie schaatspark (HTML5)
• Energie in het schaatspark: eenvoudig (HTML5)
• Eten en bewegen
• Faraday's Elektromagnetisch Lab
• Fitting van kromme (HTML5)
• Forces and Motion
• Fotoelektrisch effect
• Fourier: Golven maken (HTML5)
• Functie Bouwer (HTML5)
• Galtonbord - waarschijnlijkheid (HTML5)
• Geleidingsvermogen
• Geluidsgolven
• Generator
• Geometrische optiek (HTML5)
• Gletsjers
• Golf op een koord (HTML5)
• Grafieken van vergelijkingen tekenen
• Gravitatiekracht lab (HTML5)
• Halfgeleiders
• Het bewegende mannetje
• Het broeikaseffect
• Circuit constructiedoos: gelijkstroom - Virtueel lab (HTML5)
• Circuit constructiedoos: gelijkstroom (HTML5)
• Circuit Constructiedoos: Wisselstroom (HTML5)
• Interacties tussen atomen (HTML5)
• Interferentie van golven (HTML5)
• Isotopen en atoommassa (HTML5)
• John Travolta(ge) (HTML5)
• Kernsplitsing
• Kleinste kwadraten regressie (HTML5)
• Kleuren zien (HTML5)
• Koppel
• Kracht en beweging: eenvoudig (HTML5)
• Krachten langs een lijn
• Krachten op een helling
• Kwantum golfinterferentie
• Kwantumtunnelling en Golfdeeltjes
• Ladingen en velden (HTML5)
• Lasers
• Lichtbreking (HTML5)
• Lieveheersbeestje-draaien
• Maanlander
• Magnet and Compass
• Magnetrons
• Magnets and Electromagnets
• Massa’s en veren (HTML5)
• mass-spring-lab
• Mijn zonnestelsel (HTML5)
• Modellen van een waterstofatoom
• Molariteit (HTML5)
• Moleculaire motors
• Moleculen en licht (HTML5)
• Natuurlijke selectie
• Neonverlichting en andere ontladingslampen
• Neuron (HTML5)
• Omkeerbare reacties
• Onder druk (HTML5)
• Onzelieveheersbeestjekruipt tweedimensionaal
• Oplossingen van zuren en basen (HTML5)
• Optellen van vectoren (HTML5)
• Optellen van vectoren: vergelijkingen (HTML5)
• Optisch manipuleren van lichtpulsen
• Optisch pincet
• pH schaal (HTML5)
• Platentektoniek
• Polariteit van moleculen (HTML5)
• polariteit molecuul
• Projectielbeweging (HTML5)
• Quantum bindingstoestanden
• Radiating Charge
• Radioactief bepalen van de ouderdom
• Radiogolven
• Ramp: Forces and Motion
• Reactanten, producten en resten (HTML5)
• Reacties en reactiesnelheid
• Reactievergelijkingen doen kloppen (HTML5)
• Rechten tekenen (HTML5)
• Resonantie
• Rutherfordverstrooiing (HTML5)
• Schakelling met batterij en weerstand
• Schatting
• Slinger lab (HTML5)
• Soorten en veranderingen van energie (HTML5)
• Spanning batterij
• Spectrum zwarte straler (HTML5)
• stern-gerlach
• Stroomkirng
• Suiker- en zoutoplossingen
• Tekenen van helling-interval (HTML5)
• Travolta - statische elektriciteit
• Trigonometrie toer (HTML5)
• Vereenvoudigd MRI
• Vloeistofdruk en stroming
• Vormen van moleculen (HTML5)
• Wat je moet weten over uitdrukkingen van genen (HTML5)
• Weerstand van een draad (HTML5)
• Wet van Beer lab (HTML5)
• Wet van Hooke (HTML5)
• Wet van Ohm (HTML5)
• Wrijving (HTML5)
• Zouten en Oplosbaarheid
• Gravitatie en banen (HTML5)
• Calculus Grapher (HTML5)
• Gene Expression - The Basics
• Gene Machine: The Lac Operon
• Kepler's Laws (HTML5)
• Normal Modes
• Projectile Data Lab (HTML5)
• Projectile Sampling Distributions (HTML5)

Activiteiten

• 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)