114 søkjeresultat som passar linearized data
Simuleringar
- Naturleg utval (HTML5)
- Curve Fitting (HTML5)
- Center and Variability (HTML5)
- Least-Squares Regression (HTML5)
- Mean: Share and Balance (HTML5)
- Projectile Data Lab (HTML5)
- Projectile Sampling Distributions (HTML5)
- Reversible Reactions
Aktivitetar
- Exploring Data to Make Predictions
- Displaying, Analyzing, and Summarizing Data
- Curve Fitting: How well does the curve describe the data? (Inquiry Based)
- Laboratório de dados de projéteis
- Projectile Lab (Horizontal Launch)
- Projectile Lab (Angled Launch)
- Investigating time period of a simple pendulum
- Moving Man: Pos and Vel Graphs
- Data Detective
- Collecting and analyzing density data
- Experimental Design Practice
- Under Pressure _ Lab Activity Packet
- Exploring MAD
- Charges and Fields
- Shape, Center, and Spread
- Discovering Beer’s Law by a Simulation-based Laboratory
- Black Body Radiation: Seeking Patterns in Data Sets
- Coulomb's Law Data Collection and Analysis (remote online learning)
- Climate Change - The Gas Phase
- Group data generating activity to find Lac Operon effectiveness
- Rubric for Simple Pendulums - What Affects the Period?
- Kinetic and Potential energy
- Thermal Energy Scientific Inquiry
- Mean as Balancing Point
- Projectile Motion Experiment Abdulla
- Designing Experiments Using Masses & Springs
- Graphing Activity using Gas Properties Simulation
- Molarity and Dilution
- Forces and Motion: Finding the Mass of a Car
- Blackbody Radiation updated from Michael P.
- Gravity Force Lab PreAP using HTML5 Sim
- Intermolecular Forces and Molecules - Interactive Lecture Demonstration
- Colors, Bunnies and Wolves: does the strongest survive?
- Line of best fit activity
- Level 1 - Momentum Lab by Stephen N. Clontz, M. Ed.
- Projectile Investigation
- Middle School - series and parallel circuits
- Reflection in a plane surface
- Simple Harmonic Motion (Pendulum & Spring)
- Internal Resistance
- PHET Charges and Fields Activity Part 1
- Wave Interference & Fringe Patterns
- Galileo's Skater Down an Inclined Plan
- Projectile Motion Lab Report
- Deriving Gas Properties
- Determining Speed and Intensity of Light during Refraction
- Newton's Gravitation Law
- Discovering the conservation of momentum
- Investigating a radioactive decay
- Ohm's Law
- Ohm's Law Graphing Lab
- Simple Pendulums - What Affects the Period?
- Universal Gravity-building formula, quantitative with graphing
- Projectile launch angle vs displacement
- Proving Newton's Second Law
- projectile motion
- Graphical Relationships in Electric Fields
- Eksperimen Simulasi Efek Fotolistrik
- Ohm's Law - HTML5 sim
- Newton's Laws and the Lunar Lander
- Spring Mass Experiment
- Trabalho em grupo: Diluição
- Intro Lab
- The Effects of Resource Availability on Populations
- Isotopes
- Super Basic Gas Law
- Collision investigation lab
- Isotopes PhET Activity
- Discovering Snell's law
- Hooke's Law investigation including multi-spring systems and Energy
- PHET Motion & Friction Sim Lab
- Conservation of Mechanical Energy (Lab Report)
- Physics Graphing and Introduction to Models
- 2D PHET Collision Lab in Excel
- Conservation of Mechanical Energy
- Exothermic vs. Endothermic Reactions
- Ideal Gas Law Activity
- Visible Spectrophotometry of Nickel (II) Chloride
- Hooke's law
- Gas Behavior
- Quantitative Representation of Natural Selection
- Modeling Gravity
- Light and Atoms
- Lab: Capacitance
- The x and y's of Gas Properties
- Friction Quantitative Lab
- Lens Equation Experiment using Excel
- Exploring Vectors and Projectile Motion
- Simple Harmonic Motion Virtual Modeling Lab PhET
- Elementary Pendulum Lab 4th-5th
- Coulombinc Force Simulation
- projectile motion
- Discovering Ohm's Law Inquiry Lab
- Lab - Natural Selection
- Newton's Second Law Investigation
- Comparing the properties of different materials
- Modeling Paradigm Lab- 2nd Law
- The "Lifelike" Moving Man: Variation in motion graphs
- Cavendish Lab
- Discovering Acids and Bases
- Abbreviated Gas Laws Worksheet
- Projectile Motion Worksheet
- Resistivity in a wire
- Investigating Gravitational Interactions
- Exploring the density of mysterious objects
- Modelling Motion