339 hasil pencarian yang memuat kata relative molecular mass
Simulasi
- Buat Atom (HTML5)
- Energi Skate: Dasar (HTML5)
- Garis Bilangan Bulat (HTML5)
- Gaya Apung
- Gaya dan Gerak : Dasar (HTML5)
- Gelombang Mikro
- Gesekan (HTML5)
- Interferensi Gelombang Kuantum
- Keadaan Ikatan Kuantum
- Kesetimbangan (HTML5)
- Lab Gaya Gravitasi (HTML5)
- Larutan Asam-Basa (HTML5)
- Larutan Gula dan Garam
- Massa dan Pegas
- Pendaratan Lunar
- Penggerak Molekuler
- Peregangan DNA
- Pinset Optik dan Aplikasinya
- Pola - pola Normal
- Polaritas Molekul (HTML5)
- Polaritas Molekul
- Reaksi dan Tingkatannya
- Resonansi
- Skala pH (HTML5)
- Molecule Shapes (HTML5)
- Molecule Shapes: Basics (HTML5)
- Energy Skate Park (HTML5)
- Projectile Motion (HTML5)
- Isotopes and Atomic Mass (HTML5)
- Pendulum Lab (HTML5)
- Build a Molecule (HTML5)
- Density (HTML5)
- Collision Lab (HTML5)
- Gas Properties (HTML5)
- My Solar System (HTML5)
- States of Matter: Basics (HTML5)
- States of Matter (HTML5)
- Balancing Chemical Equations (HTML5)
- Build a Nucleus (HTML5)
- Diffusion (HTML5)
- Eating & Exercise
- Gene Expression Essentials (HTML5)
- Gene Expression - The Basics
- Glaciers
- Gravity Force Lab: Basics (HTML5)
- Masses and Springs (HTML5)
- Masses and Springs: Basics (HTML5)
- pH Scale: Basics (HTML5)
- Reactants, Products and Leftovers (HTML5)
Aktifitas
- Modeling Relative Atomic Mass
- Isotopes activity sheet
- Isotopes and Atomic Mass - Guided Inquiry Activity
- Isotopes and Atomic Mass - Clicker Questions
- Isotopes & Atomic Mass-Inquiry Activity
- Flow stretching and molecular motors
- THE ATOMIC STRUCTURE LESSON PLAN
- Acid Base Solutions - Concentration and Strength
- Mixture of Isotopes and Atomic Mass
- Kinetic Molecular Theory- Introduction (inquiry-based)
- Isotopes
- Exploring Average Atomic Mass
- Build a Molecule - Molecular Formulas and Coefficients
- Maxwell-Boltzmann Distribution Curves
- Modeling Isotopes
- Friction demonstration
- Molecular Geometry Flash Cards
- Relative Density - sink or float
- Balancing Chemical Equations - Inquiry based Introduction
- isotopes and atomic mass
- Density Lesson (with Putty Lab)
- Investigating Density, Volume, Mass and Weight
- Density: How Does Density Relate to Mass &Volume and an Object's Interaction with Water?
- Kinetic Molecular theory review
- Investigating Molecule Shapes
- Sugar and Salt Solutions - Annotated Lecture Slides
- States of Matter (Inquiry based) Phase Change and Phase diagrams
- Forces and Motion: Finding the Mass of a Car
- Reactions and Rates 1 Introduction to reactions (Inquiry Based)
- pH Scale inquiry-based intro to acid-base
- Balloons and Bouyancy: An Introduction to Bouyancy - (Inquiry Based)
- Electrolyte and Non-electrolyte Solutions - Interactive Lecture Demonstration
- Moving Molecules
- Gas Properties Modular Homework Activity
- Isotopes and Atomic Mass
- Reactions and Rates 2: Intro to Kinetics (inquiry based)
- Reactants, Products, and Leftovers Activity 2: Limiting Reactants in Chemical Reactions
- Masses and Springs Homework Determine Unknowns (Inquiry Based)
- Reactants, Products, and Leftovers Review Activity: Limiting Reactants in Chemical Reactions Review
- Geometria Molecular
- Gravity Force Lab : calculations
- Build an Atom
- Lab: PhET Isotopes and Atomic Mass
- Build an Molecule - concept questions
- Build an Molecule - Inquiry-based basics
- Formulas y nombres de moléculas
- Energy Analysis of a Mass Oscillating on a Spring
- Geometria molecular
- Geometria Molecular
- Investigation of sugar and salt solutions
- Introdução a Geometria molecular
- Build an Atom: Introduction
- Build an Atom - Guided-Inquiry Activity
- Sugar and Salt Solutions - Clicker Questions
- Heat it Up
- Reactants, Products, and Leftovers Concept Questions
- States of Matter for Middle School
- Molecular Geometry Activity
- Using the Molecular Shapes PhET Simulation: Concept Development for Understanding Molecular Geometry and Shape
- Buoyancy: How Does Buoyant Force Act on Objects in a Fluid?
- Conservation of Energy using Masses and Springs (homework version) (Inquiry Based)
- Balancing Chemical Equations - Guided Inquiry Activity
- Modeling Friction (Inquiry Based)
- Hanging Mass
- Using the Molecule Polarity PhET Simulation: Concept Development for Understanding Molecular Dipoles
- Build a Molecule
- Force and Motion: Mass vs. Speed
- Aprendendo Geometria molecular a partir da estrutura de Lewis
- How does mass effect the speed of a forced object?
- Relationship between frequency and mass, k, and g
- It’s All in the Shape: Discovering Molecular Geometry
- Isotopes and Atomic Mass Phet Simulation Guided Inquiry
- States of Matter Basics - Clicker Questions
- Exploring Changes in States of Matter
- Measuring Mass With Springs
- Balancing Chemical Equations - Clicker Questions
- Density-introduction
- Springs and Things
- Density and Buoyancy
- Force and Motion activity 2: Relating graphs and free body diagrams using Moving Man and Forces 1D (Inquiry Based)
- Plan de Clase Datación Radioactiva ☢
- Molecular Geometry and Polarity
- Making Green Paint
- Time Period is Independent of Amplitude and Mass of the Pendulum
- Chemistry Theater
- e=mc2
- Isotopes Guided Inquiry
- Introduction to the Online Mass-Spring Lab
- Gravity Lab- intro
- Isotopes PhET Activity
- Isotopes
- Exploring Chemical Reactions and the Law of Conservation of Mass
- Momentum and Center of Mass
- States of Matter Lecture Demonstration
- GEOMETRÍA MOLECULAR Y NOMENCLATURA DE ALCANOS
- Molecules and Light-inquiry for high school
- PhET Shapes Inquiry Lab
- Concept Questions for Chemistry using PhET
- Designing Experiments Using Masses & Springs
- Build an Atom - Inquiry-based basics (homework version)
- Interpreting Chemical Symbols
- Spring Mass Experiment
- pH Scale Basics Remote Lab1
- Mass/Spring Activity
- QUÍMICA GERAL CONTEÚDO: GEOMETRIA MOLECULAR
- Molecule Polarity- Inquiry and Applications
- Phases of Matter
- Molecule Polarity
- Using PhET in High School Chemistry- all my activities in pdf
- Kinetic Molecular Theory
- Molecular Polarity Inquiry Lab
- Kinetic Molecular Theory Intro
- Molecule Shapes- inquiry
- Acceleration
- Visualizing a Mixture
- Force, Mass, Acceleration
- Orbits--effects of mass and distance
- Position function of mass on spring
- Mass Spring Activity
- Radioactive Decay
- Radioactive Decay
- Isótopos y Masa Atómica: Actividad de Consulta Guiada
- Change Your Motion
- Gravity Force Lab for Physical Science
- Intermolecular Forces and Molecules - Interactive Lecture Demonstration
- pH Scale Basics | Remote Lab
- Video: Self-paced Investigation on Simple Harmonic Motion of a spring-mass system
- Density-introduction
- Isótopos y masa atómica
- 동위원소와 원자량 SIM 사용지침서
- Isotoopide meedialabori juhend
- Stable Isotopes
- Isotope Stability and Radioactivity
- Isótopos y Masas Atómicas
- Preguntas conceptuales sobre Isótopos
- İzotop stabilliyi
- Density Investigation
- lab course mass-spring system
- Two Types of Energy - Mass & Spring
- Estados de la materia: Cambio en la estructura molecular del agua
- On the molecular level, what is the difference between acids and bases?
- PhET Density Lab
- Microwaves
- Recognizing Patterns in Covalent Bonding
- Exploring Gravity
- Resonance-Introduction to Natural Frequency
- Gases Understanding physical properties of gases (Inquiry Based)
- Balancing torques & Finding unknown masses
- Simple Pendulums - What Affects the Period?
- Exploring (proportional) Density
- The Atom; Discovery of the Atom
- CONSTRUYE UN ATOMO E ISOTOPOS, TABLA PERIODICA
- It’s All in the Shape: II. Discovering the Behavior of Polar Molecules
- Polarity Lab
- Molecule Design Challenge Pre-Activity
- Entropy, Microstates, and Probability - Interactive Lecture Demonstration Guide
- Molecules Are Made Up of Atoms
- Gas Properties Gas Laws Quantitative
- Lesson Plan for Teaching Shapes of Molecule
- Introduction to Ionic & Covalent Bonding
- How does the mass and velocity of a satellite affect the orbit?
- Phet Simulation - Modeling Molecules
- How do PhET simulations fit in my middle school program?
- Simple Harmonic Motion (Pendulum & Spring)
- Newton's Second Law
- Introducción a los estados de la materia
- Salts and Solubility 3: Solution Equilibrium and Ksp (Inquiry Based)
- Ramp: Forces and Motion Investigation
- Balancing Act Remote Lab
- Density Exploration
- Student Guide for PhET - Balancing Act in html5
- Density Lab
- Calculer le poids d'un "grave"
- Gravity Force Simulation - Concept Questions
- Masses and Springs Simulation Homework
- La densitat amb el simulador PhET
- Air Resistance Lesson
- Ranking Specific Heat Capacities
- Outlining Bonding vs. Shape Polarity
- Turning Forces
- Molecule Shapes Advanced
- Movimiento Armonico Simple: El pendulo y el resorte (Simple Harmonic Motion:pendulum and spring
- Introduction to Oscillations
- Resonance: Upper-division college
- Conservation of Energy 2: graphs analysis
- Concept questions for Physics using PhET (Inquiry Based)
- Experiencia Educativa Principio Arquimedes, Fuerza Boyante y Densidad (Learning experience: Archimedes principle, Buoyant force & Density).
- Balancing Equations PhET
- Explore Balancing Chemical Equations
- Density Simulation Lab
- Measuring Density
- Sumo Simulator!
- Gravity Between Bodies
- MS and HS TEK to Sim Alignment
- The Basics of Gene Expression
- Remote Learning Molecule Shapes
- Virtual Density
- Build an Atom Game Remote Lab
- Energy Skate Park Basics: Mechanical Energy Lab
- Balancing act 1
- Exploring Newtons' Second Law
- Atom Builder
- PhET Atom Simulator
- Newton's Second Law of Motion
- Balance Lab - Mystery Box
- Mr. T's Density Phet Lab
- Effusion
- Friction Investigation
- Fission: controlled vs. uncontrolled
- Newton's 1st & 2nd Laws
- Hooke's Law and The Spring Constant
- Density
- Forces Simulator Activity
- Projectile Motion in Sports
- Visualizing Mixing with Sugar and Salt Solutions
- Photoelectric Effect
- Exploration of KMT and Gas Laws
- Balancing Chemical Equations HTML5
- Net Forces and Newton's Second Law
- forces and motion basics
- Energy in a Coil Spring
- Energy Skate Park Basics | Remote Lab
- Factors Affecting The Frequency of A simple Harmonic Oscillator
- Build an Atom Lab!
- Graham's Law of Effusion
- Force and Motion
- Forces and Newton's Laws Review
- conservation of mechanical energy
- Energy Simulation Lab - Skate Park
- Investigating Springs
- Balancing Chemical Equations
- Newton's Law of Universal Gravitation
- Lab: PhET Build an Atom
- Build a Molecule Basics
- ¡Ajustando átomos!
- Density
- Gravity, Orbits and Kepler's Laws
- Concentration PhET WebLab
- Making Molecules
- States of Matter
- Introductions to Solutions
- Build an Atom WebLab
- KE and PE using the Pendulum Lab
- KE and PE with the pendulum, Student
- Density Exploration
- Video: Self-paced Investigation on Hooke's Law Virtual Lab
- Projectile Motion - Lab Experiment
- ORGANIC CHEMISTRY Chemical Reactions of Alkanes and Alkenes
- Group data generating activity to find Lac Operon effectiveness
- Discovering Newton's Second Law
- Newton's Second Law Investigation
- Weak vs. Strong
- IMF and phase changes
- PhET Interactive Lab on pH
- Masses and Springs
- Pendulum Lab
- Density-MS
- Friction on Incline
- Investigating Gravitational Interactions
- Introduction to Forces in 1-D
- Second Law Inquiry PhET Forces and Motion
- PhET Forces Lab
- Energy Skate Park Analysis Lab
- Building Atomic Models
- Hooke's Law (Springs)
- Preguntas de razonamiento para todas las simulaciones HTML5
- Alineación simulaciones PhET con el Currículo Ecuatoriano - Química - Bachillerato
- Gravitational Force and Orbits
- PhET Projectiles Simulation Lab
- Projectile Motion Worksheet
- Exploring the Energy Skate Park
- Proving Newton's Second Law
- Mechanical energy lab - Remote
- Horizontal Launch Investigation
- Reactants, Leftovers and Products
- Projectile Motion Scientific Enquiry
- Explorando Estados de la Materia
- PhET Sims Aligned to the Chemistry Curriculum
- Alignment of PhET sims with NGSS
- Lab: PhET Sugar and Salt Solutions
- Modeling Paradigm Lab- 2nd Law
- SECUNDARIA: Alineación PhET con programas de la SEP México (2011 y 2017)
- PREPARATORIA: Alineación de PhET con programas de la DGB México (2017)
- Cavendish Lab
- Playing with atoms
- Projectile Motion
- Electric Field Hockey Post-Game Analysis
- Modelling Motion
- Mapping of PhET and IBDP Physics
- Unusual cases of oscillation