eScience Labs: Physics Labs
The eScience Labs lab kit, created specifically for college-level Physics, includes models, specimens, safety equipment, and more. This kit, combined with Odigia’s Teaching and Learning Tools, is everything you need to engage, collaborate, track, and assess your students.
This course includes:
Digital Learning and Teaching Tools
Quality Lab Kits
Customizable Assessments
The Benefits of eScience Labs + Odigia
Make It Yours
Customize the lab kit and assessments to fit the needs of your course and match your desired learning outcomes.
No-Hassle Delivery
Kits are delivered directly to your students at the time and price you need, giving your students a successful lab experience wherever they are.
Prepare Students
Go beyond the traditional with digital learning and teaching tools that help prepare students for success in today’s workplace.
Boost Engagement
Create an immersive, engaging, and affordable distance learning experience. Can connect to your LMS or run independently.
eScience Labs: Physics Labs
Lab Kits Available in Odigia:
Introduction to Science
- Exercise 1: Data Interpretation
- Exercise 2: Testable Observations
- Exercise 3: Conversion
- Exercise 4: Accuracy and Precision
- Exercise 5: Significant Digits and Scientific Notation
- Exercise 6: Percent Error
- Exercise 7: Experimental Variables
General Lab Safety
- Exercise 1: What is it?
Measurements and Uncertainty
- Experiment 1: Rulers vs. Calipers
- Experiment 2: The Spring Force Scale
- Experiment 3: The Stopwatch
- Experiment 4: Density of the Mass Set
1-D Kinematics
- Experiment 1: Distance of Free Fall
2-D Kinematics and Projectile Motion
- Experiment 1: Distance Traveled by a Projectile
- Experiment 2: Squeeze Rocket™ Projectiles
Newton’s Laws
- Experiment 1: Newton’s First Law of Motion
- Experiment 2: Newton’s Third Law and Force Pairs
- Experiment 3: Newton’s Second Law and the Atwood Machine
Friction
- Experiment 1: Static Friction and Mass on an Inclined Plane
- Experiment 2: Static Friction vs. Kinetic Friction
Circular Motion
- Experiment 1: Balancing Centripetal Force
Gravity
- Experiment 1: Falling in a Gravitational Field
- Experiment 2: Inverse Square Law
Conservation of Energy
- Experiment 1: Work Done by a Spring
- Experiment 2: Conservation of Energy
- Experiment 3: Conservation of Energy- Data Analysis
Conservation of Momentum
- Experiment 1: Conservation of Momentum
- Experiment 2: Egg Drop
Torque and Static Equilibrium
- Experiment 1: Open Door Torque
- Experiment 2: Rotating Ruler
- Experiment 3: Torque and Static Levers
Center of Mass
- Experiment 1: Stability
- Experiment 2: Irregular Shapes
- Experiment 3: Center of Mass of a Hanging Mass System
Buoyant Force and Archimedes Principle
- Experiment 1: Effects of Density
- Experiment 2: Buoyant Force and Floating
- Experiment 3: Buoyant Force and Archimedes Principle
Simple Harmonic Motion
- Experiment 1: Oscillating Spring
Properties of Waves
- Experiment 1: Waves
- Experiment 2: Wave Speed of Microwaves
- Experiment 3: The Doppler Effect
Ideal Gas Law
- Experiment 1: Charles’ Law
- Experiment 2: Boyle’s Law
Latent Heat and Specific Heat
- Experiment 1: Latent Heat
- Experiment 2: Conservation of Heat Energy
- Experiment 3: Specific Heat
First Law of Thermodynamics
- Experiment 1: First Law of Thermodynamics
- Experiment 2: Shaken Sand System
Second Law of Thermodynamics and Entropy
- Experiment 1: Heat Flow
- Experiment 2: Probability of States
Electric Charge and Coulomb’s Law
- Experiment 1: Exploring Charge with Scotch® Tape
- Experiment 2: Static Materials
- Experiment 3: Charging by Contact and Induction
Electric Field and Potential
- Experiment 1: Mapping Electric Potentials
Gauss’s Law
- Experiment 1: Flux
- Experiment 2: Faraday’s Ice Pail
Capacitance
- Experiment 1: Capacitors in Series and Parallel
Resistivity and Ohm’s Law
- Experiment 1: Ohm’s Law
- Experiment 2: Resistance of Play-Doh®
Kirchhoff’s Laws
- Experiment 1: Resistors in Series and Parallel
- Experiment 2: Resistors in Series and Parallel 2
- Experiment 3: Kirchhoff’s Laws
Magnetic Forces and Fields
- Experiment 1: Magnet Behavior
- Experiment 2: Magnetic Field Lines
Faraday’s Law
- Experiment 1: Faraday’s Law
- Experiment 2: Building a Simple Electric Motor
Snell’s Law and Total Internal Reflection
- Experiment 1: Law of Reflection
- Experiment 2: Snell’s Law
Interference
- Experiment 1: Young’s Double Slit Experiment
- Experiment 2: Single Slit Diffraction
Geometric Optics, Ray Tracing and Image Formation
- Experiment 1: Plane Mirrors
- Experiment 2: Exploring Mirrors
- Experiment 3: Drawing Ray Diagrams
- Experiment 4: Exploring Lenses
These labs have been combined with our comprehensive Physics content to create a complete digital learning experience for your students.
Science Interactive Group provides comprehensive, standard-aligned content and educational products, services, and software. Our vast assortment of innovative STEM-oriented products is designed to provide instructors with interactive, real-world applications that engage students and enhance outcomes.
Odigia provides digital learning and teaching tools that enhance the way students and instructors access, modify, and engage with content, collaborate with each other during the course, track progress and understanding of content, and ultimately apply knowledge.
Interested in learning more about eScience Labs + Odigia?
