50 Résultats de recherche correspondants Strength
Simulations
- Aimant et boussole (HTML5)
- Aimants et électro-aimants (HTML5)
- Charges et champs (HTML5)
- Electric Field Hockey
- Gravité et orbites (HTML5)
- IRM simplifiée
- Labo du pendule (HTML5)
- Labo électromagnétique de Faraday (HTML5)
- Labo d'électromagnétisme de Faraday
- Masses et Ressorts : Les bases (HTML5)
- Interactions atomiques (HTML5)
- Solutions acido-basiques (HTML5)
Activités
- Acid Concentration and Strength Investigation
- Acid Base Solutions - Concentration and Strength
- Acid-Base Macro Particulate Symbolic
- Strong and Weak Acids
- Eating and Exercise Activity
- Electric field - patterns and strength
- PHET Charges and Fields Activity Part 1
- Introduction to the Covalent Bond
- Investigating Electric Fields
- Magnets-Introduction (Inquiry Based)
- Magnets and Compasses
- Introduction to Static Electricity using Electric Field Hockey and Charges and Fields (Inquiry Based)
- Introduction to Magnetic Fields (bar magnets and electromagnets) - Inquiry Based
- Exploring Electric Potential, Electric Field and Distance Relationships
- Gravity and Orbits
- Charges and Fields Remote Lab Introduction to Static Electricity
- Practicas ácido-base
- pH Scale Basics | Remote Lab
- Intermolecular Forces and Molecules - Interactive Lecture Demonstration
- Gravity and Orbits Investigation
- Video: Self-paced learning on Electrical Equipotential Lines
- Initial Magnetism Investigation (Inquiry Based)
- Mass Spring Activity
- Electric Field Lab
- Exploring EM Forces
- Investigating time period of a simple pendulum
- Mass/Spring Activity
- Hooke's law
- IMF and phase changes
- Weak vs. Strong
- Determinine Electric Field Relationships
- Projectile Lab (Angled Launch)
- Projectile Lab (Horizontal Launch)
- Science activity sheet: Acids_bases solutions
- Guided Inquiry - Electric Fields
- POGIL-style simulation analysis
- Hooke's Law and the Spring Constant
- Faradays Electromagnetic Lab: Generating Electricity